phd papers

Harvard University Theses, Dissertations, and Prize Papers

The Harvard University Archives ’ collection of theses, dissertations, and prize papers document the wide range of academic research undertaken by Harvard students over the course of the University’s history.

Beyond their value as pieces of original research, these collections document the history of American higher education, chronicling both the growth of Harvard as a major research institution as well as the development of numerous academic fields. They are also an important source of biographical information, offering insight into the academic careers of the authors.

Printed list of works awarded the Bowdoin prize in 1889-1890.

Spanning from the ‘theses and quaestiones’ of the 17th and 18th centuries to the current yearly output of student research, they include both the first Harvard Ph.D. dissertation (by William Byerly, Ph.D . 1873) and the dissertation of the first woman to earn a doctorate from Harvard ( Lorna Myrtle Hodgkinson , Ed.D. 1922).

Other highlights include:

The collection of Mathematical theses, 1782-1839
The 1895 Ph.D. dissertation of W.E.B. Du Bois, The suppression of the African slave trade in the United States, 1638-1871
Ph.D. dissertations of astronomer Cecilia Payne-Gaposchkin (Ph.D. 1925) and physicist John Hasbrouck Van Vleck (Ph.D. 1922)
Undergraduate honors theses of novelist John Updike (A.B. 1954), filmmaker Terrence Malick (A.B. 1966), and U.S. poet laureate Tracy Smith (A.B. 1994)
Undergraduate prize papers and dissertations of philosophers Ralph Waldo Emerson (A.B. 1821), George Santayana (Ph.D. 1889), and W.V. Quine (Ph.D. 1932)
Undergraduate honors theses of U.S. President John F. Kennedy (A.B. 1940) and Chief Justice John Roberts (A.B. 1976)

What does a prize-winning thesis look like?

If you're a Harvard undergraduate writing your own thesis, it can be helpful to review recent prize-winning theses. The Harvard University Archives has made available for digital lending all of the Thomas Hoopes Prize winners from the 2019-2021 academic years.

Accessing These Materials

How to access materials at the Harvard University Archives

How to find and request dissertations, in person or virtually

How to find and request undergraduate honors theses

How to find and request Thomas Temple Hoopes Prize papers

How to find and request Bowdoin Prize papers

email: Email
Phone number 617-495-2461

Related Collections

Harvard faculty personal and professional archives, harvard student life collections: arts, sports, politics and social life, access materials at the harvard university archives.

Librarians/Admins

EBSCOhost Collection Manager
EBSCO Experience Manager
EBSCO Connect
Start your research
EBSCO Mobile App

Clinical Decisions Users

DynaMed Decisions
Dynamic Health
Waiting Rooms
NoveList Blog

EBSCO Open Dissertations

EBSCO Open Dissertations makes electronic theses and dissertations (ETDs) more accessible to researchers worldwide. The free portal is designed to benefit universities and their students and make ETDs more discoverable.

Increasing Discovery & Usage of ETD Research

EBSCO Open Dissertations is a collaboration between EBSCO and BiblioLabs to increase traffic and discoverability of ETD research. You can join the movement and add your theses and dissertations to the database, making them freely available to researchers everywhere while increasing traffic to your institutional repository.

EBSCO Open Dissertations extends the work started in 2014, when EBSCO and the H.W. Wilson Foundation created American Doctoral Dissertations which contained indexing from the H.W. Wilson print publication, Doctoral Dissertations Accepted by American Universities, 1933-1955. In 2015, the H.W. Wilson Foundation agreed to support the expansion of the scope of the American Doctoral Dissertations database to include records for dissertations and theses from 1955 to the present.

How Does EBSCO Open Dissertations Work?

Your ETD metadata is harvested via OAI and integrated into EBSCO’s platform, where pointers send traffic to your IR.

EBSCO integrates this data into their current subscriber environments and makes the data available on the open web via opendissertations.org .

You might also be interested in:

About Stanford GSB

The Leadership
Dean’s Updates
School News & History
Commencement
Business, Government & Society
Centers & Institutes
Center for Entrepreneurial Studies
Center for Social Innovation
Stanford Seed

About the Experience

Learning at Stanford GSB
Experiential Learning
Guest Speakers
Entrepreneurship
Social Innovation
Communication
Life at Stanford GSB
Collaborative Environment
Activities & Organizations
Student Services
Housing Options
International Students

Full-Time Degree Programs

Why Stanford MBA
Academic Experience
Financial Aid
Why Stanford MSx
Research Fellows Program
See All Programs

Non-Degree & Certificate Programs

Executive Education
Stanford Executive Program
Programs for Organizations
The Difference
Online Programs
Stanford LEAD
Seed Transformation Program
Aspire Program
Seed Spark Program
Faculty Profiles
Academic Areas
Awards & Honors
Conferences

Faculty Research

Publications
Working Papers
Case Studies

Research Hub

Research Labs & Initiatives
Business Library
Data, Analytics & Research Computing
Behavioral Lab

Research Labs

Cities, Housing & Society Lab
Golub Capital Social Impact Lab

Research Initiatives

Corporate Governance Research Initiative
Corporations and Society Initiative
Policy and Innovation Initiative
Rapid Decarbonization Initiative
Stanford Latino Entrepreneurship Initiative
Value Chain Innovation Initiative
Venture Capital Initiative
Career & Success
Climate & Sustainability
Corporate Governance
Culture & Society
Finance & Investing
Government & Politics
Leadership & Management
Markets and Trade
Operations & Logistics
Opportunity & Access
Technology & AI
Opinion & Analysis
Email Newsletter

Welcome, Alumni

Communities
Digital Communities & Tools
Regional Chapters
Women’s Programs
Identity Chapters
Find Your Reunion
Career Resources
Job Search Resources
Career & Life Transitions
Programs & Webinars
Career Video Library
Alumni Education
Research Resources
Volunteering
Alumni News
Class Notes
Alumni Voices
Contact Alumni Relations
Upcoming Events

Admission Events & Information Sessions

MBA Program
MSx Program
PhD Program
Alumni Events
All Other Events
Requirements
Requirements: Behavioral
Requirements: Quantitative
Requirements: Macro
Requirements: Micro
Annual Evaluations
Field Examination
Research Activities
Research Papers
Dissertation
Oral Examination
Current Students
Entering Class Profile
Education & CV
GMAT & GRE
International Applicants
Statement of Purpose
Letters of Recommendation
Reapplicants
Application Fee Waiver
Deadline & Decisions
Job Market Candidates
Academic Placements
Stay in Touch
Fields of Study
Student Life

During the summer, PhD students engage in research and directed reading programs, and take courses in the university’s other schools and departments.

During this time of individual study and one-on-one contact with faculty, you’ll have the opportunity to accelerate your growth as a research scholar. You’ll be required to submit a research paper at the end of either the first or the second summer. Some fields require papers following both summers.

You’ll have access to faculty guidance and supervision during the summer period, and you’ll present your paper in a seminar format and/or before field faculty.

Priorities for the GSB's Future
See the Current DEI Report
Supporting Data
Research & Insights
Share Your Thoughts
Search Fund Primer
Teaching & Curriculum
Affiliated Faculty
Faculty Advisors
Louis W. Foster Resource Center
Defining Social Innovation
Impact Compass
Global Health Innovation Insights
Faculty Affiliates
Student Awards & Certificates
Changemakers
Dean Jonathan Levin
Dean Garth Saloner
Dean Robert Joss
Dean Michael Spence
Dean Robert Jaedicke
Dean Rene McPherson
Dean Arjay Miller
Dean Ernest Arbuckle
Dean Jacob Hugh Jackson
Dean Willard Hotchkiss
Faculty in Memoriam
Stanford GSB Firsts
Class of 2024 Candidates
Certificate & Award Recipients
Dean’s Remarks
Keynote Address
Teaching Approach
Analysis and Measurement of Impact
The Corporate Entrepreneur: Startup in a Grown-Up Enterprise
Data-Driven Impact
Designing Experiments for Impact
Digital Marketing
The Founder’s Right Hand
Marketing for Measurable Change
Product Management
Public Policy Lab: Financial Challenges Facing US Cities
Public Policy Lab: Homelessness in California
Lab Features
Curricular Integration
View From The Top
Formation of New Ventures
Managing Growing Enterprises
Startup Garage
Explore Beyond the Classroom
Stanford Venture Studio
Summer Program
Workshops & Events
The Five Lenses of Entrepreneurship
Leadership Labs
Executive Challenge
Arbuckle Leadership Fellows Program
Selection Process
Training Schedule
Time Commitment
Learning Expectations
Post-Training Opportunities
Who Should Apply
Introductory T-Groups
Leadership for Society Program
Certificate
2024 Awardees
2023 Awardees
2022 Awardees
2021 Awardees
2020 Awardees
2019 Awardees
2018 Awardees
Social Management Immersion Fund
Stanford Impact Founder Fellowships
Stanford Impact Leader Prizes
Social Entrepreneurship
Stanford GSB Impact Fund
Economic Development
Energy & Environment
Stanford GSB Residences
Environmental Leadership
Stanford GSB Artwork
A Closer Look
California & the Bay Area
Voices of Stanford GSB
Business & Beneficial Technology
Business & Sustainability
Business & Free Markets
Business, Government, and Society Forum
Get Involved
Second Year
Global Experiences
JD/MBA Joint Degree
MA Education/MBA Joint Degree
MD/MBA Dual Degree
MPP/MBA Joint Degree
MS Computer Science/MBA Joint Degree
MS Electrical Engineering/MBA Joint Degree
MS Environment and Resources (E-IPER)/MBA Joint Degree
Academic Calendar
Clubs & Activities
LGBTQ+ Students
Military Veterans
Minorities & People of Color
Partners & Families
Students with Disabilities
Student Support
Residential Life
Student Voices
MBA Alumni Voices
A Week in the Life
Career Support
Employment Outcomes
Cost of Attendance
Knight-Hennessy Scholars Program
Yellow Ribbon Program
BOLD Fellows Fund
Application Process
Loan Forgiveness
Contact the Financial Aid Office
Evaluation Criteria
English Language Proficiency
Personal Information, Activities & Awards
Professional Experience
Optional Short Answer Questions
Application Fee
Reapplication
Deferred Enrollment
Joint & Dual Degrees
Event Schedule
Ambassadors
New & Noteworthy
Ask a Question
See Why Stanford MSx
Is MSx Right for You?
MSx Stories
Leadership Development
How You Will Learn
Admission Events
Personal Information
GMAT, GRE & EA
English Proficiency Tests
Career Change
Career Advancement
Daycare, Schools & Camps
U.S. Citizens and Permanent Residents
Faculty Mentors
Current Fellows
Standard Track
Fellowship & Benefits
Group Enrollment
Program Formats
Developing a Program
Diversity & Inclusion
Strategic Transformation
Program Experience
Contact Client Services
Campus Experience
Live Online Experience
Silicon Valley & Bay Area
Digital Credentials
Faculty Spotlights
Participant Spotlights
Eligibility
International Participants
Stanford Ignite
Frequently Asked Questions
Operations, Information & Technology
Organizational Behavior
Political Economy
Classical Liberalism
The Eddie Lunch
Accounting Summer Camp
California Econometrics Conference
California Quantitative Marketing PhD Conference
California School Conference
China India Insights Conference
Homo economicus, Evolving
Political Economics (2023–24)
Scaling Geologic Storage of CO2 (2023–24)
A Resilient Pacific: Building Connections, Envisioning Solutions
Adaptation and Innovation
Changing Climate
Civil Society
Climate Impact Summit
Climate Science
Corporate Carbon Disclosures
Earth’s Seafloor
Environmental Justice
Operations and Information Technology
Organizations
Sustainability Reporting and Control
Taking the Pulse of the Planet
Urban Infrastructure
Watershed Restoration
Junior Faculty Workshop on Financial Regulation and Banking
Ken Singleton Celebration
Marketing Camp
Quantitative Marketing PhD Alumni Conference
Presentations
Theory and Inference in Accounting Research
Stanford Closer Look Series
Quick Guides
Core Concepts
Journal Articles
Glossary of Terms
Faculty & Staff
Researchers & Students
Research Approach
Charitable Giving
Financial Health
Government Services
Workers & Careers
Short Course
Adaptive & Iterative Experimentation
Incentive Design
Social Sciences & Behavioral Nudges
Bandit Experiment Application
Conferences & Events
Reading Materials
Energy Entrepreneurship
Faculty & Affiliates
SOLE Report
Responsible Supply Chains
Current Study Usage
Pre-Registration Information
Participate in a Study
Founding Donors
Location Information
Participant Profile
Network Membership
Program Impact
Collaborators
Entrepreneur Profiles
Company Spotlights
Seed Transformation Network
Responsibilities
Current Coaches
How to Apply
Meet the Consultants
Meet the Interns
Intern Profiles
Collaborate
Research Library
News & Insights
Program Contacts
Databases & Datasets
Research Guides
Consultations
Research Workshops
Career Research
Research Data Services
Course Reserves
Course Research Guides
Material Loan Periods
Fines & Other Charges
Document Delivery
Interlibrary Loan
Equipment Checkout
Print & Scan
MBA & MSx Students
PhD Students
Other Stanford Students
Faculty Assistants
Research Assistants
Stanford GSB Alumni
Telling Our Story
Staff Directory
Site Registration
Alumni Directory
Alumni Email
Privacy Settings & My Profile
Success Stories
The Story of Circles
Support Women’s Circles
Stanford Women on Boards Initiative
Alumnae Spotlights
Insights & Research
Industry & Professional
Entrepreneurial Commitment Group
Recent Alumni
Half-Century Club
Fall Reunions
Spring Reunions
MBA 25th Reunion
Half-Century Club Reunion
Faculty Lectures
Ernest C. Arbuckle Award
Alison Elliott Exceptional Achievement Award
ENCORE Award
Excellence in Leadership Award
John W. Gardner Volunteer Leadership Award
Robert K. Jaedicke Faculty Award
Jack McDonald Military Service Appreciation Award
Jerry I. Porras Latino Leadership Award
Tapestry Award
Student & Alumni Events
Executive Recruiters
Interviewing
Land the Perfect Job with LinkedIn
Negotiating
Elevator Pitch
Email Best Practices
Resumes & Cover Letters
Self-Assessment
Whitney Birdwell Ball
Margaret Brooks
Bryn Panee Burkhart
Margaret Chan
Ricki Frankel
Peter Gandolfo
Cindy W. Greig
Natalie Guillen
Carly Janson
Sloan Klein
Sherri Appel Lassila
Stuart Meyer
Tanisha Parrish
Virginia Roberson
Philippe Taieb
Michael Takagawa
Terra Winston
Johanna Wise
Debbie Wolter
Rebecca Zucker
Complimentary Coaching
Changing Careers
Work-Life Integration
Career Breaks
Flexible Work
Encore Careers
Join a Board
D&B Hoovers
Data Axle (ReferenceUSA)
EBSCO Business Source
Global Newsstream
Market Share Reporter
ProQuest One Business
RKMA Market Research Handbook Series
Student Clubs
Entrepreneurial Students
Stanford GSB Trust
Alumni Community
How to Volunteer
Springboard Sessions
Consulting Projects
2020 – 2029
2010 – 2019
2000 – 2009
1990 – 1999
1980 – 1989
1970 – 1979
1960 – 1969
1950 – 1959
1940 – 1949
Service Areas
ACT History
ACT Awards Celebration
ACT Governance Structure
Building Leadership for ACT
Individual Leadership Positions
Leadership Role Overview
Purpose of the ACT Management Board
Contact ACT
Business & Nonprofit Communities
Reunion Volunteers
Ways to Give
Fiscal Year Report
Business School Fund Leadership Council
Planned Giving Options
Planned Giving Benefits
Planned Gifts and Reunions
Legacy Partners
Giving News & Stories
Giving Deadlines
Development Staff
Submit Class Notes
Class Secretaries
Board of Directors
Health Care
Sustainability
Class Takeaways
All Else Equal: Making Better Decisions
If/Then: Business, Leadership, Society
Grit & Growth
Think Fast, Talk Smart
Spring 2022
Spring 2021
Autumn 2020
Summer 2020
Winter 2020
In the Media
For Journalists
DCI Fellows
Other Auditors
Academic Calendar & Deadlines
Course Materials
Entrepreneurial Resources
Campus Drive Grove
Campus Drive Lawn
CEMEX Auditorium
King Community Court
Seawell Family Boardroom
Stanford GSB Bowl
Stanford Investors Common
Town Square
Vidalakis Courtyard
Vidalakis Dining Hall
Catering Services
Policies & Guidelines
Reservations
Contact Faculty Recruiting
Lecturer Positions
Postdoctoral Positions
Accommodations
CMC-Managed Interviews
Recruiter-Managed Interviews
Virtual Interviews
Campus & Virtual
Search for Candidates
Think Globally
Recruiting Calendar
Recruiting Policies
Full-Time Employment
Summer Employment
Entrepreneurial Summer Program
Global Management Immersion Experience
Social-Purpose Summer Internships
Process Overview
Project Types
Client Eligibility Criteria
Client Screening
ACT Leadership
Social Innovation & Nonprofit Management Resources
Develop Your Organization’s Talent
Centers & Initiatives
Student Fellowships

Open Access Theses and Dissertations

Thursday, April 18, 8:20am (EDT): Searching is temporarily offline. We apologize for the inconvenience and are working to bring searching back up as quickly as possible.

Advanced research and scholarship. Theses and dissertations, free to find, free to use.

Advanced search options

Browse by author name (“Author name starts with…”).

Find ETDs with:

		in
/
		in
/
		in
/
		in

Written in any language English Portuguese French German Spanish Swedish Lithuanian Dutch Italian Chinese Finnish Greek Published in any country US or Canada Argentina Australia Austria Belgium Bolivia Brazil Canada Chile China Colombia Czech Republic Denmark Estonia Finland France Germany Greece Hong Kong Hungary Iceland India Indonesia Ireland Italy Japan Latvia Lithuania Malaysia Mexico Netherlands New Zealand Norway Peru Portugal Russia Singapore South Africa South Korea Spain Sweden Switzerland Taiwan Thailand UK US Earliest date Latest date

Sorted by Relevance Author University Date

Only ETDs with Creative Commons licenses

Results per page: 30 60 100

October 3, 2022. OATD is dealing with a number of misbehaved crawlers and robots, and is currently taking some steps to minimize their impact on the system. This may require you to click through some security screen. Our apologies for any inconvenience.

Recent Additions

See all of this week’s new additions.

About OATD.org

OATD.org aims to be the best possible resource for finding open access graduate theses and dissertations published around the world. Metadata (information about the theses) comes from over 1100 colleges, universities, and research institutions . OATD currently indexes 7,192,987 theses and dissertations.

About OATD (our FAQ) .

Visual OATD.org

We’re happy to present several data visualizations to give an overall sense of the OATD.org collection by county of publication, language, and field of study.

You may also want to consult these sites to search for other theses:

Google Scholar
NDLTD , the Networked Digital Library of Theses and Dissertations. NDLTD provides information and a search engine for electronic theses and dissertations (ETDs), whether they are open access or not.
Proquest Theses and Dissertations (PQDT), a database of dissertations and theses, whether they were published electronically or in print, and mostly available for purchase. Access to PQDT may be limited; consult your local library for access information.

A Guide to Writing a PhD Thesis

Written by Ben Taylor

A PhD thesis is a work of original research all students are requiured to submit in order to succesfully complete their PhD. The thesis details the research that you carried out during the course of your doctoral degree and highlights the outcomes and conclusions reached.

The PhD thesis is the most important part of a doctoral research degree: the culmination of three or four years of full-time work towards producing an original contribution to your academic field.

Your PhD dissertation can therefore seem like quite a daunting possibility, with a hefty word count, the pressure of writing something new and, of course, the prospect of defending it at a viva once you’ve finished.

This page will give you an introduction to what you need to know about the doctoral thesis, with advice on structure, feedback, submission and more.

Pick the right programme for you

There are lots of choices, let us help you to make the right one. Sign up to our weekly newsletter for the latest advice and guidance from our team of experts.

The literature review is a chance for you to display your knowledge and understanding of what’s already been written about your research area – this could consist of papers, articles, books, data and more
Rather than simply summarising what other scholars have said about your subject, you should aim to assess and analyse their arguments
The literature review is usually the first task of your PhD – and typically forms the first part or chapter of your dissertation

After finishing your literature review, you’ll move onto the bulk of your doctoral thesis. Of course, you’ll eventually return to the lit review to make sure it’s up-to-date and contains any additional material you may have come across during the course of your research.

PhD thesis research

What sets your PhD thesis apart from previous university work you’ve done is the fact that it should represent an original contribution to academic knowledge . The form that this original contribution takes will largely depend on your discipline.

Arts and Humanities dissertations usually involve investigating different texts, sources and theoretical frameworks
Social Sciences are more likely to focus on qualitive or quantitative surveys and case studies
STEM subjects involve designing, recording and analysing experiments, using their data to prove or disprove a set theory

Depending on the nature of your research, you may ‘write up’ your findings as you go, or leave it until the dedicated ‘writing-up’ period, usually in the third year of your PhD. Whatever your approach, it’s vital to keep detailed notes of your sources and methods – it’ll make your life a lot easier when it comes to using references in your dissertation further down the line.

PhD thesis vs dissertation

It’s common to use the terms ‘thesis’ and ‘dissertation’ interchangeably, but strictly speaking there is a difference in meaning between them:

Your thesis is your argument. It’s the conclusions you’ve arrived at through surveying existing scholarship in your literature review and combining this with the results of your own original research.
Your dissertation is the written statement of your thesis. This is where you lay out your findings in a way that systematically demonstrates and proves your conclusion.

Put simply, you submit a dissertation, but it’s the thesis it attempts to prove that will form the basis of your PhD.

What this also means is that the writing up of your dissertation generally follows the formulation of your doctoral thesis (it’s fairly difficult to write up a PhD before you know what you want to say!).

However, it’s normal for universities and academics to use either (or both) terms when describing PhD research – indeed, we use both ‘thesis’ and ‘dissertation’ across our website.

Can I use my Masters research in my PhD thesis?

If you’re studying an MPhil, it’s normal to ‘ upgrade ’ it into a PhD. Find mroe information on our guide.

PhD thesis structure

Having completed your initial literature review and conducted your original research, you’ll move onto the next phase of your doctoral dissertation, beginning to sketch out a plan that your thesis will follow.

The exact structure and make-up of your doctoral thesis will vary between fields, but this is the general template that many dissertations follow:

Introduction – This sets out the key objectives of your project, why the work is significant and what its original contribution to knowledge is. At this point you may also summarise the remaining chapters, offering an abstract of the argument you will go on to develop.
Literature review – The introduction will generally lead into a write-up of your literature review. Here you’ll outline the scholarly context for your project. You’ll acknowledge where existing research has shaped your PhD, but emphasise the unique nature of your work.
Chapters – After you’ve finished introducing your research, you’ll begin the bulk of the dissertation. This will summarise your results and begin explaining the argument you have based on them. Some PhDs will also include specific chapters on methodology and / or a recreation of the data you have developed. Others will develop your argument over a series of stages, drawing on sources and results as relevant.
Conclusion – The dissertation will end with a final chapter that pulls together the different elements of your argument and the evidence you have provided for it. You’ll restate the significance of your project (and its all-important original contribution to knowledge). You may also take the opportunity to acknowledge the potential for further work or opportunities to apply your findings outside academia.
Bibliography and appendices – At the end of your thesis, you’ll need to include a full list of the books, articles and data you’ve referenced in a bibliography. You may also need to provide additional information in the form of an appendix.

How long is a PhD thesis?

The length of a PhD thesis varies from subject to subject, but all are far longer than those for undergraduate or Masters degrees. Your university will usually set an upper limit – typically between 70,000 and 100,000 words, with most dissertations coming in at around 80,000 words.

Generally speaking, STEM-based theses will be a little shorter than those in the Arts, Humanities and Social Sciences.

Different universities (and departments) will have different policies regarding what counts towards the PhD thesis word count, so make sure you’re aware what is expected of you. Check with your supervisor whether references, the bibliography or appendices are included in the word count for your dissertation.

How many chapters should a PhD thesis have?

There’s no hard and fast rule for the numbers of chapters in a PhD thesis, but most will have four or five chapters (in addition to the introduction and conclusion). This is the sort of thing you’ll discuss with your supervisor when planning out your research.

Writing up your PhD thesis

Once you’ve conducted your research and settled upon your thesis, there’s only one thing left to do: get it down on paper. Appropriately enough, this final part of a PhD is often referred to as the ‘ writing up period ’.

This is when you produce the final dissertation, which will be submitted as the basis for your viva voce exam. The nature of this task can vary from PhD to PhD.

In some cases you may already have a large amount of chapter drafts and other material. ‘Writing up’ therefore becomes a process of re-drafting and assembling this work into a final dissertation. This approach is common in Arts and Humanities subjects where PhD students tend to work through stages of a project, writing as they go.

Alternatively, you may have spent most of your PhD collecting and analysing data. If so, you’ll now ‘write up’ your findings and conclusions in order to produce your final dissertation. This approach is more common in STEM subjects, where experiment design and data collection are much more resource intensive.

Whatever process you adopt, you’ll now produce a persuasive and coherent statement of your argument, ready to submit for examination.

PhD thesis feedback

Your supervisor will usually give you feedback on each chapter draft, and then feedback on the overall completed dissertation draft before you submit it for examination. When the thesis is a work-in-progress, their comments will be a chance for them to make sure your research is going in the right direction and for you to ask their advice on anything you’re concerned about. This feedback will normally be given in the form of a supervisory meeting.

Although your PhD supervisor will be happy to give you advice on your work, you shouldn’t expect them to be an editor – it’s not their responsibility to correct grammatical or spelling mistakes, and you should make sure any drafts you submit to them are as error-free as possible. Similarly, they won’t be willing to edit your work down to fit a particular word count.

Finishing your PhD thesis

When you’ve finished the final draft of your doctoral thesis and it’s been approved by your supervisor, you’ll submit it for examination. This is when it’s sent to the examiners who will conduct your viva.

Submitting your thesis involves printing enough copies for your examiners and the university’s repository. Don’t leave this until the last minute – printing multiple copies of a 300-page document is a substantial undertaking and you should always allow enough time to account for any possible glitches or issues with the printing process.

Your viva will usually take place within three months of submitting your thesis. You can find out more in our dedicated guide to the PhD viva . After your viva, your examiners will give you a report that confirms whether or not you need to make any changes to your thesis, with several different potential outcomes:

Pass – You’ve received your doctoral qualification!
Minor corrections – These are usually fairly small edits, tweaks and improvements to your thesis, which you’ll be given three months to implement
Major corrections – For these substantial changes, you may have to rewrite part of your dissertation or complete extra research, with a six-month deadline

Most PhD students will need to fix some corrections with their thesis (hopefully not major ones). It’s very rare for a dissertation to be failed.

Once you’ve made any necessary changes to your thesis, you’ll submit it one last time (usually electronically).

If you have plans to publish all or part of your work, you may want to request an embargo so that it won’t be visible to the public for a certain time. 12 months is a fairly standard time period for this, although you may want to ask for a longer embargo if you know that you want to turn your thesis into a book or monograph.

Take a look at our programme listings and find the perfect PhD for you.

Our postgrad newsletter shares courses, funding news, stories and advice

Select your nearest city

You haven’t completed your profile yet. To get the most out of FindAPhD, finish your profile and receive these benefits:

Monthly chance to win one of ten £10 Amazon vouchers ; winners will be notified every month.*
The latest PhD projects delivered straight to your inbox
Access to our £6,000 scholarship competition
Weekly newsletter with funding opportunities, research proposal tips and much more
Early access to our physical and virtual postgraduate study fairs

Or begin browsing FindAPhD.com

or begin browsing FindAPhD.com

*Offer only available for the duration of your active subscription, and subject to change. You MUST claim your prize within 72 hours, if not we will redraw.

Do you want hassle-free information and advice?

Create your FindAPhD account and sign up to our newsletter:

Find out about funding opportunities and application tips
Receive weekly advice, student stories and the latest PhD news
Hear about our upcoming study fairs
Save your favourite projects, track enquiries and get personalised subject updates

Create your account

Looking to list your PhD opportunities? Log in here .

What Is a PhD Thesis?
Doing a PhD

This page will explain what a PhD thesis is and offer advice on how to write a good thesis, from outlining the typical structure to guiding you through the referencing. A summary of this page is as follows:

A PhD thesis is a concentrated piece of original research which must be carried out by all PhD students in order to successfully earn their doctoral degree.
The fundamental purpose of a thesis is to explain the conclusion that has been reached as a result of undertaking the research project.
The typical PhD thesis structure will contain four chapters of original work sandwiched between a literature review chapter and a concluding chapter.
There is no universal rule for the length of a thesis, but general guidelines set the word count between 70,000 to 100,000 words .

What Is a Thesis?

A thesis is the main output of a PhD as it explains your workflow in reaching the conclusions you have come to in undertaking the research project. As a result, much of the content of your thesis will be based around your chapters of original work.

For your thesis to be successful, it needs to adequately defend your argument and provide a unique or increased insight into your field that was not previously available. As such, you can’t rely on other ideas or results to produce your thesis; it needs to be an original piece of text that belongs to you and you alone.

What Should a Thesis Include?

Although each thesis will be unique, they will all follow the same general format. To demonstrate this, we’ve put together an example structure of a PhD thesis and explained what you should include in each section below.

Acknowledgements

This is a personal section which you may or may not choose to include. The vast majority of students include it, giving both gratitude and recognition to their supervisor, university, sponsor/funder and anyone else who has supported them along the way.

1. Introduction

Provide a brief overview of your reason for carrying out your research project and what you hope to achieve by undertaking it. Following this, explain the structure of your thesis to give the reader context for what he or she is about to read.

2. Literature Review

Set the context of your research by explaining the foundation of what is currently known within your field of research, what recent developments have occurred, and where the gaps in knowledge are. You should conclude the literature review by outlining the overarching aims and objectives of the research project.

3. Main Body

This section focuses on explaining all aspects of your original research and so will form the bulk of your thesis. Typically, this section will contain four chapters covering the below:

your research/data collection methodologies,
your results,
a comprehensive analysis of your results,
a detailed discussion of your findings.

Depending on your project, each of your chapters may independently contain the structure listed above or in some projects, each chapter could be focussed entirely on one aspect (e.g. a standalone results chapter). Ideally, each of these chapters should be formatted such that they could be translated into papers for submission to peer-reviewed journals. Therefore, following your PhD, you should be able to submit papers for peer-review by reusing content you have already produced.

4. Conclusion

The conclusion will be a summary of your key findings with emphasis placed on the new contributions you have made to your field.

When producing your conclusion, it’s imperative that you relate it back to your original research aims, objectives and hypotheses. Make sure you have answered your original question.

Finding a PhD has never been this easy – search for a PhD by keyword, location or academic area of interest.

How Many Words Is a PhD Thesis?

A common question we receive from students is – “how long should my thesis be?“.

Every university has different guidelines on this matter, therefore, consult with your university to get an understanding of their full requirements. Generally speaking, most supervisors will suggest somewhere between 70,000 and 100,000 words . This usually corresponds to somewhere between 250 – 350 pages .

We must stress that this is flexible, and it is important not to focus solely on the length of your thesis, but rather the quality.

How Do I Format My Thesis?

Although the exact formatting requirements will vary depending on the university, the typical formatting policies adopted by most universities are:


Font	Any serif font e.g. Times New Roman, Arial or Cambria
Font Size	12pt
Vertical Line Spacing	1.5 Lines
Page Size	A4
Page Layout	Portrait
Page Margins	Variable, however, must allow space for binding
Referencing	Variable, however, typically Harvard or Vancouver

What Happens When I Finish My Thesis?

After you have submitted your thesis, you will attend a viva . A viva is an interview-style examination during which you are required to defend your thesis and answer questions on it. The aim of the viva is to convince your examiners that your work is of the level required for a doctoral degree. It is one of the last steps in the PhD process and arguably one of the most daunting!

For more information on the viva process and for tips on how to confidently pass it, please refer to our in-depth PhD Viva Guide .

How Do I Publish My Thesis?

Unfortunately, you can’t publish your thesis in its entirety in a journal. However, universities can make it available for others to read through their library system.

If you want to submit your work in a journal, you will need to develop it into one or more peer-reviewed papers. This will largely involve reformatting, condensing and tailoring it to meet the standards of the journal you are targeting.

Browse PhDs Now

Join thousands of students.

Join thousands of other students and stay up to date with the latest PhD programmes, funding opportunities and advice.

Thank you for visiting nature.com. You are using a browser version with limited support for CSS. To obtain the best experience, we recommend you use a more up to date browser (or turn off compatibility mode in Internet Explorer). In the meantime, to ensure continued support, we are displaying the site without styles and JavaScript.

View all journals
Explore content
About the journal
Publish with us
Sign up for alerts
CAREER COLUMN
07 July 2022

How to find, read and organize papers

Maya Gosztyla 0

Maya Gosztyla is a PhD student in biomedical sciences at the University of California, San Diego.

You can also search for this author in PubMed Google Scholar

“I’ll read that later,” I told myself as I added yet another paper to my 100+ open browser tabs.

Access options

Access Nature and 54 other Nature Portfolio journals

Get Nature+, our best-value online-access subscription

24,99 € / 30 days

cancel any time

Subscribe to this journal

Receive 51 print issues and online access

185,98 € per year

only 3,65 € per issue

Rent or buy this article

Prices vary by article type

Prices may be subject to local taxes which are calculated during checkout

doi: https://doi.org/10.1038/d41586-022-01878-7

This is an article from the Nature Careers Community, a place for Nature readers to share their professional experiences and advice. Guest posts are encouraged .

Competing Interests

The author declares no competing interests.

Research management

How to spot a predatory conference, and what science needs to do about them: a guide

Career Feature 30 JUL 24

Predatory conferences are on the rise. Here are five ways to tackle them

Editorial 30 JUL 24

We are junior scientists from emerging economies — the world needs more researchers like us solving global problems

Career Column 26 JUL 24

Sexual harassment in science: biologists in India speak out

News Feature 29 JUL 24

Why you should perform a premortem on your research

Career Column 24 JUL 24

So you got a null result. Will anyone publish it?

News Feature 24 JUL 24

A stroke derailed my academic career. Now I’m getting back on track

Career Column 23 JUL 24

ICYS Research Fellow, NIMS, Japan

The International Center for Young Scientists (ICYS) of the National Institute for Materials Science (NIMS) invites applications for ICYS Research ...

Tsukuba, Ibaraki (JP)

National Institute for Materials Science (NIMS)

2024 Recruitment notice Shenzhen Institute of Synthetic Biology: Shenzhen, China

The wide-ranging expertise drawing from technical, engineering or science professions...

Shenzhen,China

Shenzhen Institute of Synthetic Biology

Global Faculty Recruitment of School of Life Sciences, Tsinghua University

The School of Life Sciences at Tsinghua University invites applications for tenure-track or tenured faculty positions at all ranks (Assistant/Ass...

Beijing, China

Tsinghua University (The School of Life Sciences)

Postdoctoral Fellowships: Cancer Diagnosis and Precision Oncology of Gastrointestinal Cancers

We currently have multiple postdoctoral fellowship positions within the multidisciplinary research team headed by Dr. Ajay Goel, professor and foun...

Monrovia, California

Beckman Research Institute, City of Hope, Goel Lab

Associate or Senior Editor, Nature Physics

Position: Associate or Senior Editor, Nature Physics Locations: New York, Philadelphia, Jersey City, Berlin, or Heidelberg- Hybrid working model De...

New York City, New York (US)

Springer Nature Ltd

Quick links

Explore articles by subject
Guide to authors
Editorial policies

How to find resources by format

Why use a dissertation or a thesis.

A dissertation is the final large research paper, based on original research, for many disciplines to be able to complete a PhD degree. The thesis is the same idea but for a masters degree.

They are often considered scholarly sources since they are closely supervised by a committee, are directed at an academic audience, are extensively researched, follow research methodology, and are cited in other scholarly work. Often the research is newer or answering questions that are more recent, and can help push scholarship in new directions.

Search for dissertations and theses

Locating dissertations and theses.

The Proquest Dissertations and Theses Global database includes doctoral dissertations and selected masters theses from major universities worldwide.

Searchable by subject, author, advisor, title, school, date, etc.
More information about full text access and requesting through Interlibrary Loan

NDLTD – Networked Digital Library of Theses and Dissertations provides free online access to a over a million theses and dissertations from all over the world.

WorldCat Dissertations and Theses searches library catalogs from across the U.S. and worldwide.

Locating University of Minnesota Dissertations and Theses

Use Libraries search and search by title or author and add the word "thesis" in the search box. Write down the library and call number and find it on the shelf. They can be checked out.

Check the University Digital Conservancy for online access to dissertations and theses from 2007 to present as well as historic, scanned theses from 1887-1923.

Other Sources for Dissertations and Theses

Center for Research Libraries
DART-Europe E-Thesis Portal
Theses Canada
Ethos (Great Britain)
Australasian Digital Theses in Trove
DiVA (Sweden)
E-Thesis at the University of Helsinki
DissOnline (Germany)
List of libraries worldwide - to search for a thesis when you know the institution and cannot find in the larger collections
ProQuest Dissertations Express - to search for a digitized thesis (not a free resource but open to our guest users)

University of Minnesota Dissertations and Theses FAQs

What dissertations and theses are available.

With minor exceptions, all doctoral dissertations and all "Plan A" master's theses accepted by the University of Minnesota are available in the University Libraries system. In some cases (see below) only a non-circulating copy in University Archives exists, but for doctoral dissertations from 1940 to date, and for master's theses from 1925 to date, a circulating copy should almost always be available.

"Plan B" papers, accepted in the place of a thesis in many master's degree programs, are not received by the University Libraries and are generally not available. (The only real exceptions are a number of old library school Plan B papers on publishing history, which have been separately cataloged.) In a few cases individual departments may have maintained files of such papers.

In what libraries are U of M dissertations and theses located?

Circulating copies of doctoral dissertations:.

Use Libraries Search to look for the author or title of the work desired to determine location and call number of a specific dissertation. Circulating copies of U of M doctoral dissertations can be in one of several locations in the library system, depending upon the date and the department for which the dissertation was done. The following are the general rules:
Dissertations prior to 1940 Circulating copies of U of M dissertations prior to 1940 do not exist (with rare exceptions): for these, only the archival copy (see below) is available. Also, most dissertations prior to 1940 are not cataloged in MNCAT and can only be identified by the departmental listings described below.
Dissertations from 1940-1979 Circulating copies of U of M dissertations from 1940 to 1979 will in most cases be held within the Elmer L. Andersen Library, with three major classes of exceptions: dissertations accepted by biological, medical, and related departments are housed in the Health Science Library; science/engineering dissertations from 1970 to date will be located in the Science and Engineering Library (in Walter); and dissertations accepted by agricultural and related departments are available at the Magrath Library or one of the other libraries on the St. Paul campus (the Magrath Library maintains records of locations for such dissertations).
Dissertations from 1980-date Circulating copies of U of M dissertations from 1980 to date at present may be located either in Wilson Library (see below) or in storage; consult Libraries Search for location of specific items. Again, exceptions noted above apply here also; dissertations in their respective departments will instead be in Health Science Library or in one of the St. Paul campus libraries.

Circulating copies of master's theses:

Theses prior to 1925 Circulating copies of U of M master's theses prior to 1925 do not exist (with rare exceptions); for these, only the archival copy (see below) is available.
Theses from 1925-1996 Circulating copies of U of M master's theses from 1925 to 1996 may be held in storage; consult Libraries search in specific instances. Once again, there are exceptions and theses in their respective departments will be housed in the Health Science Library or in one of the St. Paul campus libraries.
Theses from 1997-date Circulating copies of U of M master's theses from 1997 to date will be located in Wilson Library (see below), except for the same exceptions for Health Science and St. Paul theses. There is also an exception to the exception: MHA (Masters in Health Administration) theses through 1998 are in the Health Science Library, but those from 1999 on are in Wilson Library.

Archival copies (non-circulating)

Archival (non-circulating) copies of virtually all U of M doctoral dissertations from 1888-1952, and of U of M master's theses from all years up to the present, are maintained by University Archives (located in the Elmer L. Andersen Library). These copies must be consulted on the premises, and it is highly recommended for the present that users make an appointment in advance to ensure that the desired works can be retrieved for them from storage. For dissertations accepted prior to 1940 and for master's theses accepted prior to 1925, University Archives is generally the only option (e.g., there usually will be no circulating copy). Archival copies of U of M doctoral dissertations from 1953 to the present are maintained by Bell and Howell Corporation (formerly University Microfilms Inc.), which produces print or filmed copies from our originals upon request. (There are a very few post-1952 U of M dissertations not available from Bell and Howell; these include such things as music manuscripts and works with color illustrations or extremely large pages that will not photocopy well; in these few cases, our archival copy is retained in University Archives.)

Where is a specific dissertation of thesis located?

To locate a specific dissertation or thesis it is necessary to have its call number. Use Libraries Search for the author or title of the item, just as you would for any other book. Depending on date of acceptance and cataloging, a typical call number for such materials should look something like one of the following:

Dissertations: Plan"A" Theses MnU-D or 378.7M66 MnU-M or 378.7M66 78-342 ODR7617 83-67 OL6156 Libraries Search will also tell the library location (MLAC, Health Science Library, Magrath or another St. Paul campus library, Science and Engineering, Business Reference, Wilson Annex or Wilson Library). Those doctoral dissertations still in Wilson Library (which in all cases should be 1980 or later and will have "MnU-D" numbers) are located in the central section of the third floor. Those master's theses in Wilson (which in all cases will be 1997 or later and will have "MnU-M" numbers) are also located in the central section of the third floor. Both dissertations and theses circulate and can be checked out, like any other books, at the Wilson Circulation desk on the first floor.

How can dissertations and theses accepted by a specific department be located?

Wilson Library contains a series of bound and loose-leaf notebooks, arranged by department and within each department by date, listing dissertations and theses. Information given for each entry includes name of author, title, and date (but not call number, which must be looked up individually). These notebooks are no longer current, but they do cover listings by department from the nineteenth century up to approximately 1992. Many pre-1940 U of M dissertations and pre-1925 U of M master's theses are not cataloged (and exist only as archival copies). Such dissertations can be identified only with these volumes. The books and notebooks are shelved in the general collection under these call numbers: Wilson Ref LD3337 .A5 and Wilson Ref quarto LD3337 .U9x. Major departments of individual degree candidates are also listed under their names in the GRADUATE SCHOOL COMMENCEMENT programs of the U of M, available in University Archives and (for recent years) also in Wilson stacks (LD3361 .U55x).

<< Previous: Dictionaries and encyclopedias
Next: E-books >>

Utility Menu

Apply | Contact Us | Carol Davis Fund Anonymous Feedback to the Physics Chair

Harvard phd theses in physics, 2001-.

BAILEY, STEPHEN JOHN, B.S. (Washington) 1995. A Study of B → J/y K (*)0 X Decays. (Huth)

CHEN, LESTER HAO-LIN, B.S. (Duke) 1995. (Harvard) 1999. Charge-Iimaging Field-Effect Transistors for Scanned Probe Microscopy. (Westervelt)

CHOU, YI, B.S. (National Tsing Hua University) 1988. (National Tsing Hua University) 1990. Developments of EXITE2 and Timing Analysis of Ultra-Compact X-ray Binaries. (Papaliolios/Grindlay)

ERSHOV, ALEXEY, B.S. (Moscow Institute of Physics & Technology) 1996. Beauty Meson Decays to Charmonium. (Feldman)

FOX, DAVID CHARLES, A.B. (Princeton) 1991. (Harvard) 1994. The Structure of Clusters of Galaxies. (Loeb)

FUKUTO, MASAFUMI, B.S. (Oregon) 1994. (Harvard) 1997). Two-Dimensional Structures and Order of Nano-Objects on the Surface of Water: Synchrotron X-ray Scattering Studies. (Pershan)

HILL, MARC, B.S. (Illinois) 1994. Experimental Studies of W-band Accelerator Structures at High Field. (Huth)

KANNAPPAN, SHEILA, A.B. (Harvard) 1991. (Harvard, History of Science) 2001. Kinematic Clues to the Formation and Evolution of Galaxies. (Horowitz)

LAU, CHUN-NING, B.A. (Chicago) 1994. (Harvard) 1997. Quantum Phase Slips in Superconducting Nanowires. (Tinkham)

OSWALD, JOSEPH ANTON, B.S. (Duke) 1992. (Harvard) 1995. Metallo-dielectric Photonic Crystal Filters for Infrared Applications. (Verghese/Tinkham)

SCHAFFER, CHRISTOPHER BRIAN, B.S. (Florida) 1995. Interaction of Femtosecond Laser Pulses with Transparent Materials. (Mazur)

SPRADLIN, MARCUS BENJAMIN, B.A. (Princeton) 1996. (Harvard) 1999. AdS 2 Black Holes and Soliton Moduli Spaces. (Strominger)

WU, CLAUDIA, Diplom (Hannover) 1991. (Harvard) 1995. Femtosecond Laser-Gas-Solid Interactions. (Mazur)

BOZOVIC, DOLORES, B.S. ( Stanford University ) 1995. (Harvard) 1997. Defect Formation and Electron Transport in Carbon Nanotubes. (Tinkham)

BRITTO-PACUMIO, RUTH ALEXANDRA, B.S. (MIT) 1996. (Harvard) 1998. Bound States of Supersymmetric Black Holes. (Strominger)

CACHAZO, FREDDY ALEXANDER, B.S. (Simon Bolivar University) 1996. Dualities in Field Theory from Geometric Transitions in String Theory. (Vafa)

CHOU, YI, B.S. ( National Tsing Hua University ) 1988. ( National Tsing Hua University ) 1990. Developments of EXITE2 and Timing Analysis of Ultra-Compact X-ray Binaries. (Papaliolios/Grindlay)

COLDWELL, CHARLES MICHAEL, A.B. (Harvard) 1992. A Search for Interstellar Communications at Optical Wavelengths. (Horowitz)

DUTTON, ZACHARY JOHN, B.A. (University of California Berkeley) 1996. (Harvard) 2002. Ultra-slow Stopped, and Compressed Light in Bose-Einstein Condensates. (Hau)

FOX, DAVID CHARLES, A.B. ( Princeton ) 1991. (Harvard) 1994. The Structure of Clusters of Galaxies. (Shapiro)

GOEL, ANITA, B.S. (Stanford) 1995. Single Molecule Dynamics of Motor Enzymes Along DNA. (Herschbach/ Wilson)

HALL, CARTER, B.S. (Virginia Polytechnic Institute and State Univ.) 1996. Measurement of the isolated direct photon cross section with conversions in proton-antiproton collisions at sqrt (s) = 1.8 TeV. (Franklin)

JANZEN, PAUL HENRY, B. Sc., (University of Windsor) 1992. (Harvard) 1994. An Experiment to Measure Electron Impact Excitation of Ions that have Metastable States. (Horowitz/Kohl)

KIM, Daniel Young-Joon, AB/AM (Harvard) 1995. Properties of Inclusive B → psi Production. (Wilson/Brandenburg)

LANDHUIS, DAVID PAUL, B.S. (Stanford) 1994. (Harvard) 1997. Studies with Ultracold Metastable Hydrogen. (Gabrielse/Kleppner)

LAU, CHUN-NING, B.A. ( Chicago ) 1994. (Harvard) 1997. Quantum Phase Slips in Superconducting Nanowires . (Tinkham)

LEE, CHUNGSOK, B.A. ( University of California , Berkeley ) 1995. ( Harvard University ) 2002. Control and Manipulation of Magnetic Nanoparticles and Cold Atoms Using Micro-electromagnets. (Westervelt)

LUBENSKY, DAVID KOSLAN, A.B. ( Princeton University ) 1994. (Harvard) 1997. Theoretical Studies of Polynucleotide Biophysics. (Nelson)

MATTONI, CARLO EGON HEINRICH, A.B. ( Harvard College ) 1995. (Harvard University ) 1998. Magnetic Trapping of Ultracold Neutrons Produced Using a Monochromatic Cold Neutron Beam. (Doyle)

MCKINSEY, DANIEL NICHOLAS, B.S. (University of Michigan) 1995. (Harvard) 1998. Detecting Magnetically Trapped Neutrons: Liquid Helium As a Scintillator. (Doyle)

OZEL, FERYAL, B.S. (Columbia University) 1996. The Effects of Strong Magnetic and Gravitational Fields on Emission Properties of Neutron Stars. (Narayan)

PAUTOT, SOPHIE, B.S. (University of Bordeaux I and II) 1995. (University of Bordeaux I and II) 1996. Lipids behavior at dodecane-water interface. (Weitz)

PRASAD, VIKRAM, B. Tech. (Indian Institute of Technology) 1996. ( University of Pennsylvania ) 1999. Weakly interacting colloid-polymer mixtures. (Weitz)

SALWEN, NATHAN KALMAN, A.B. (Harvard) 1994. Non-perturbative Methods in Modal Field Theory. (Coleman)

SCHWARZ, JENNIFER MARIE, B.S., B.A. (University of Maryland) 1994. Depinning with Elastic Waves: Criticality, Hysteresis, and Even Pseudo-Hysteresis. (Fisher)

SHAW, SCOT ELMER JAMES, B.A. (Lawrence University) 1998. Propagation in Smooth Random Potentials. [PDF: ~7.44MB] ( Heller)

SQUIRES, TODD MICHAEL, B.S. (UCLA) 1995. Hydrodynamics and Electrokinetics in Colloidal and Microfluidic Systems. (Fisher/Brenner)

VOLOVICH, ANASTASIA, A.M. (Moscow State) 1998. Holography for Coset Spaces and Noncommutative Solitions. (Strominger)

WEINSTEIN, JONATHAN DAVID, B.S. (Caltech) 1995. (Harvard) 1998. Magnetic Trapping of Atomic Chromium and Molecular Calcium Monohydride. (Doyle)

WONG, GLENN PATRICK, B.S. (Stanford) 1993. (Harvard) 1995. Nuclear Magnetic Resonance Experiments Using Laser-Polarized Noble Gas . (Shapiro)

YESLEY, PETER SPOOR, B.S. (MIT) 1995. The Road to Antihydrogen. (Gabrielse)

*YOUNKIN, REBECCA JANE, A.B. ( Mt. Holyoke ) 1993. (Harvard) 1996. Surface Studies and Microstructure Fabrication Using Femtosecond. (Mazur)

ASHCOM, JONATHAN BENJAMIN, B.S. (Brown University) 1996. (Harvard) 2000. The role of focusing in the interaction of femtosecond laser pulses with transparent materials. (Mazur)

CHAN, IAN HIN-YUN , B.S. ( Sanford University ) 1994. Quantum dot circuits: single-electron switch and few-electron quantum dots . (Westervelt)

CREMERS, JACOB NICO HENDRIK JAN, B.S. (MIT) 1994. (Harvard) 2002. Pumping and Spin-Orbit Coupling in Quantum Dots. (Halperin)

deCARVALHO, ROBERT, B.S. (University of Arizona) 1996. (Harvard) 1999. Inelastic Scattering of Magnetically Trapped Atomic Chromium. (Doyle)

D’URSO, BRIAN RICHARD, B.S. (California Institute of Technology) 1998. Cooling and Self-Excitation of a One-Electron Oscillator. (Gabrielse)

FIETE, GREGORY ALAN, B.S. (Purdue University) 1997. (Harvard) 1999. Theory of Kondo Effect in Nanoscale Systems and Studies of III-V Diluated Magnetic Semiconductors. (Heller)

GABEL, CHRISTOPHER VAUGHN, A.B. (Princeton University) 1996. The speed of the flagellar rotary motor of Escherichia coli varies linearly with protonmotive force. (Berg)

GORDON, VERNITA DIANE, B.S. (Vanderbilt University) 1996. (Harvard) 2001. Measuring and Engineering Microscale Mechanical Responses and Properties of Bio-Relevant Materials. (Weitz)

HAILU, GIRMA, B.S. (Addis Ababa University). (Addis Ababa University) 1992. (Harvard) 1999. Chiral orbifold Construction of Field Theories with Extra Dimensions. (Georgi)

HEADRICK, MATTHEW PETER, B.A. (Princeton University) 1994. (Harvard) 1998. Noncummutative Solitons and Closed String Tachyons. (Minwalla)

HUMPHREY, MARC ANDREW, B.S. (Western Michigan University). 1997 (Harvard) 2000. Precision measurements with atomic hydrogen masers. (Walsworth)

LEPORE, NATASHA, B.S. (University of Montreal) Diffraction and Localization in Quantum Billiards. [Postscript: ~5.8MB] (Heller)

LEROY, BRIAN JAMES, Imaging Coherent Electron Flow Through Semiconductor Nanostructures. [PDF: ~10.17MB] (Westervelt)

LOPATNIKOVA, ANNA, B.S. (MIT) 1997. Spontaneously symmetry-broken states in the quantum Hall regime. (Halperin/Wen)

MADRAK, ROBYN LEIGH, B.A. (Cornell University) 1995 Measurement of the LambdaB Lifetime in the Decay Mode LambdaB-> Jpsi Lambda . (Franklin)

MALONEY, ALEXANDER DEWITT, Time-Dependent Backgrounds of String Theory . [PDF: ~6.73MB] (Strominger)

MAOZ, LIAT, B.S. (Hebrew University) 1995. Supersymmetric Configurations in the Rotating D1-D5 System and PP-Waves. [PDF: ~7.16 MB] (Maldacena/ Strominger)

MARINELLI, LUCA, Laurea ( University of Genova ) 1995. ( Harvard University ) 1997. Analysis of quasiparticles in the mixed state of a d-wave superconductor and NMR in pores with surface relaxation. (Halperin)

REFAEL, GIL, B.S. (Tel Aviv University) 1997. (Harvard) 2001. Randomness, Dissipation, and Quantum Fluctuations in Spin Chains and Mesoscopic Superconductor Arrays. (Fisher/Demler)

SHEN, NAN, B.A. (Rhode Island College) 1996. Photodisruption in biological tissues using femtosecond laser pulses . (Mazur)

TSERKOVNYAK, YAROSLAV, (University of British Columbia) 1999. (Harvard) 2001. Spin and Charge Transfer in Selected Nanostructures. [PDF: ~6.96MB] (Halperin)

VALENTINE, MEGAN THERESA, B.S. (Leigh University) 1997. (University of Pennsylvania) 1999. Mechanical and Microstructural Properties of Biological Materials . [PDF: ~3.5 MB] (Weitz)

VANICEK, JIRI JOSEPH LADISLAV, A.B. (Harvard College). (Harvard) 2000. Uniform semiclassical approximations and their applications . [PDF: 936 KB] (Heller)

WIJNHOLT, MARTIJN PAUL, B.S. (University of Warwick) 1996. Investigations in the physics of solitons in string theory. (Vafa)

ZABOW, GARY, B.S. (University of Cape Town) 1994. Charged-particle optics for neutral particles. (Prentiss)

ZIELINSKI, LUKASZ JOZEF, B.S. (Stanford University) 1997. Restriction and inhomogeneous magnetic fields in the nuclear magnetic resonance study of diffusion. (Halperin/Sen)

ABRAHAM, MATHEW CHEERAN, B.S. (Haverford College) 1997 (Harvard University) 2000. Hot Electron Transpoort and Current Sensing. (Westervelt)

BOWDEN, NATHANIEL SEAN, B.S., M.S. (University of Auckland) 1996. Production of Cold Antihydrogen During the Positron Cooling of Antiprotons. (Gabrielse)

CHANG, SPENCER, B.S. (Stanford University) 1999. (Harvard) 2001. Topics in Little Higgs Physics . [PDF: 467 KB] (Georgi)

DZHOSYUK, SERGEI N., B.S.(Moscow Institute of Physics and Technology)1995.(Moscow Institute of Physics and Technology)1997. M agnetic trapping of neutrons for measurement of the neutron lifetime. (Doyle)

EGOROV, DMITRO MIKHAILOVICH, B.S. (Moscow Institute of Physics and Technology) 1998. Buffer-Gas Cooling of Diatomic Molecules . [PDF: ~4.1 MB] (Doyle)

FIETE, ILA RANI, B.S. (University of Michigan) 1997. (Harvard University) 2000. Learning and coding in biological neural networks . (Fisher/Seung)

GARDEL, MARGARET LISE, B.A. (Brown University) 1998. (Harvard University) 2003. Elasticity of F-actin Networks. (Weitz)

HSU, MING F., A.B. ( Princeton University) 1999. Charged Colloidal Particles in Non-polar Solvents and Self-assembled Colloidal Model Systems . (Weitz)

KING, GAVIN MCLEAN, B.S. (Bates College) 1997 (Dartmouth college) 2001. Probing the Longitudinal Resolution of a Solid State nanopore Microscope with Nanotubes. (Golovchenko)

MANLEY, SULIANA, B.A.(Rice University) 1997. (Harvard University) 2001. Mechanical stability of fractal colloid gels. (Weitz)

MICHNIAK,JR.,ROBERT ALLEN, B.S. (University of Michigan) 1997. (Harvard University) 2001. Enhanced Buffer Gas Loading: Cooling and Trapping of Atoms with Low Effective Magnetic Moments. (Doyle)

MODY, AREEZ MINOO, B.S. (Caltech) 1994. Thermodynamics of ultracold singly charged particles. (Heller)

ODOM, BRIAN CARL, B.S. (Stanford University) 1995. (Harvard University) 1999. Measurement of the Electron g-Factor in a Sub-Kelvin Cylindrical Cavity . (Gabrielse)

OXLEY, PAUL KEVIN, B.A. (Oxford University) 1994. Production of Slow Antihydrogen from Cold Antimatter Plasmas . [PDF: ~5.9 MB](Gabrielse)

ROESER, CHRISTOPHER ALLAN DEWALD, B.A. (University of Chicago) 1998. Ultrafast Dynamics and Optical Control of Coherent Phonons in Tellurium. (Mazur)

SHPYRKO, OLEG GRIGORY, B.S. (Moscow Institute of Physics and Technology) 1995. Experimental X-Ray Studies of Liquid Surfaces. (Pershan)

SON, JOHN SANG WON, B.A. (Columbia University) 1996. Superstring Theory in AdS_3 and Plane Waves . [PDF: ~450 KB](Minwalla)

ZELEVINSKY, TANYA, S.B. (MIT) 1999. (Harvard University) 2001. Helium 2^3 P Fine Structure Measurement in a Discharge Cell. (Gabrielse)

ZUMBÜHL, DOMINIK MAX, Diploma, M.S. (Swiss Federal Institute of Technology), 1998. Coherence and Spin in GaAs Quantum Dots . [PDF: ~2.7 MB] (Marcus)

ANDRÉ, AXEL PHILIPPE, M.S. (Imperial College) 1997. (HarvardUniversity) 1999. Nonclassical States of Light and Atomic Ensembles: Generation and New Applications. (Lukin)

BIERCUK, MICHAEL JORDAN, Local Gate Control in Carbon Nanotube Quantum Devices. (Marcus)

CHEN, HAOYU HENRY, (University Maryland) 1998. (Harvard University) 2000. Surfaces in Solid Dynamics and Fluid Statics . [PDF: ~2.5 MB] (Brenner)

CONRAD, JACINTA CARMEL, S.B. (University of Chicago) 1999. ( Harvard University) 2002. Mechanical Response and Dynamic Arrest in Colloidal Glasses and Gels. (Weitz)

DASGUPTA, BIVASH R., B.S.C. (Presidency College) 1995. (Indian Institute of Technology) 1997. Microrheology and Dynamic Light Scattering Studies of Polymer Solutions. (Weitz)

HANCOX, CINDY IRENE, B.A. (University of California, Berkeley) 1997. ( Harvard University) 2002. Magnetic trapping of transition-metal and rare-earth atoms using buffer-gas loading. (Doyle)

HOUCK, ANDREW A., B.S.E. (Princeton University) 2000. Novel Techniques Towards Nuclear Spin Detection. (Marcus/Chuang)

LEE, HAK-HO, B.S. (Seoul National University) 1998. Microelectronic/Microfluidic Hybrid System for the Manipulation of Biological Cells. (Westervelt).

NEITZKE, ANDREW M., A.B. (Princeton University) 1998. Toward a Nonperturbative Topological String. (Vafa)

PODOLSKY, DANIEL, B.S. ( Stanford University) 1998. (Harvard University) 2000. Interplay of Magnetism and Superconductivity in Strongly Correlated Electron Systems. (Demler)

RAPPOCCIO, SALVATORE ROCCO, B.A. (Boston University ) 2000. Measurement of the ttbar Production Cross Section in ppbar Collisions at sqrt (s) = 1.96 TeV. (Foland)

SPECK, ANDREW J., (Williams College) 2000. (Harvard) 2002. Two Techniques Produce Slow Antihydrogen . [PDF: ~9.2 MB] (Gabrielse)

TEE, SHANG YOU, B.S. ( Columbia University) 1995. (Stevens Institute of Technology) 1997. Velocity Fluctuations in Sedimentation and Fluidized Beds. (Weitz)

THOMPSON, DAVID MATTOON, (Yale) 1999 B.S./M.S. Holography and Related Topics in String Theory . [PDF: ~440 KB] (Strominger)

ZHU, CHENG, B.S. ( Tsinghua University) 1996. (Chinese Science and Technology University) 1997. Gas phase atomic and molecular process . (Lukin/Dalgarno)

BABICH, DANIEL MICHAEL, A.B. ( Princeton University) 2002. ( Harvard University) 2005. Cosmological Non-Gaussianity and Reionization . (Loeb)

BARNETT, RYAN LEE, B.S. ( Ohio State University) 2000. ( Harvard University) 2002. Studies of Strongly correlated Systems: From First Principles Computations to Effective Hamiltonians and Novel Quantum Phases. (Demler)

BOWLES, ANITA MARIE, B.S. ( University of Colorado) 1996. ( Harvard University) 1998. Stress Evolution in Thin Films of a Polymer . (Weitz/Spaepen)

CHIJIOKE, AKOBUIJE DOUGLAS EZIANI, B.S.E. ( Duke University) 1996. (Massachusetts Institute of Technology) 1998. Infrared absorption of compressed hydrogen deuteride and calibration of the ruby pressure gauge . [PDF: ~2.6 MB](Silvera)

CYRIER, MICHELLE CHRISTINE, B.S. ( University of California , Berkeley) 2000. Physics From Geometry: Non-Kahler Compactifications, Black Rings and dS/CFT. (Strominger)

DESAI, MICHAEL MANISH, B.A. ( Princeton University ) 1999. ( University of Cambridge ) 2000. Evolution in Large Asexual Populations. (Murray/Fisher)

EISAMAN, MATTHEW D, A.B. (Princeton) 2000. (Harvard University) 2004. Generation, Storage and Retrieval of Nonclassical States of Light Using Atomic Ensembles . [PDF: ~7 MB] (Lukin)

HOLLOWAY, AYANA TAMU, A.B. ( Princeton University) 1998. The First Direct Limit on the t Quark Lifetime. ( Franklin)

HOWARD, ANDREW WILLIAM, S.B. (Massachusetts Institute of Technology) 1998. (Harvard University) 2001. Astronomical Searches for Nanosecond Optical Pulses. (Horowitz)

HUANG, JIAN, BS (Jilin University, P.R.China)1998. Theories of Imaging Electrons in Nanostructures . [PDF: ~8.4 MB] (Heller)

JONES, GREGORY CHAPMAN, B.S. (University of Missouri, Columbia) 2001. Time-dependent solutions in gravity . (Strominger)

KILIC, CAN, B.S. ( Bogazici University) 2000. Naturalness of Unknown Physics: Theoretical Models and Experimental Signatures. (Arkani-Hamed)

LAKADAMYALI, MELIKE, B.S. ( University of Texas , Austin ) 2001. Real-Time Imaging of Viral Infection and Intracellular Transport in Live Cells. (Zhuang)

MAHBUBANI, RAKHI, MSci (University of Bristol) 2000. Beyond the Standard Model: The Pragmatic Approach to the Gauge Hierarchy Problem . [PDF: ~1.5 MB] (Arkani-Hamed)

MARSANO, JOSEPH DANIEL, B.S. (University of Michigan) 2001. (Harvard University) 2004. The Phase Structure of Yang-Mills Theories and their Gravity Duals. (Minwalla)

NGUYEN, SCOTT VINH, B.S. (University of Texan, Austin) 2000. Buffer gas loading and evaporative cooling in the multi-partial-wave regeime. (Doyle)

PAPADODIMAS, KYRIAKOS, B.A. ( University of Athens ) 2000. Phase Transitions in Large N Gauge Theories and String Theory Duals. (Minwalla)

PARROTT, ROBERT ELLIS, B.A. (Dartmouth College) 1997. (Dartmouth College) 1999. Topics in Electron Dynamics in Moderate Magnetic Fields . (Heller)

POTOK, RONALD MICHAEL, B.S. ( University of Texas Austin) 2000. Probing Many Body Effects in Semiconductor Nanostructures. (Goldhaber-Gordon/Marcus)

RUST, MICHAEL JOSEPH, B.S. ( Harvey Mudd College ). Fluorescence Techniques for Single Virus Particle Tracking and Sub-Diffraction Limit Imaging. (Zhuang)

SAGE, JENNIFER NICOLE FUES, B.A. ( Washington University ) 1997. ( Harvard University ) 2000. Measurements of Lateral Boron Diffusion in Silicon and Stress Effects on Epitaxial Growth . (Aziz/Kaxiras)

TAYLOR, JACOB MASON, A.B. ( Harvard College ) 2000. Hyperfine Interactions and Quantum Information Processing in Quantum Dots. (Lukin)

THALER, JESSE KEMPNER, S.B. (Brown University). ( Harvard University) 2004. Symmetry Breaking at the Energy Frontier . (Arkani-Hamed)

THAMBYAHPILLAI, SHIYAMALA NAYAGI, M.S. (Imperial College) 1999. Brane Worlds and Deconstruction. (Randall)

VAISHNAV, JAY Y., B.S. (University of Maryland) 2000. ( Harvard University) 2002. Topics in Low Energy Quantum Scattering Theory. [PDF: ~3.8 MB] (Heller)

VITELLI, VINCENZO, B.S. (Imperial College) 2000. Crystals , Liquid Crystals and Superfluid Helium on Curved Surfaces. (Nelson)

WALKER, DEVIN GEORGE EDWARD, B.S. (Hampton University) 1998. ( Harvard University ) 2001. Theories on the Origin of Mass and Dark Matter. (Arkani-Hamed/Georgi)

WHITE, OLIVIA LAWRENCE, B.S. ( Stanford University ) 1997. Towards Real Spin Glasses: Ground States and Dynamics. (Fisher)

YIN, XI, B.S. (University of Science and Technology of China) 2001. Black Holes, Anti de Sitter Space, and Topological Strings. (Strominger)

YANG, LIANG, B.S. (Yale University) 1999. ( Harvard University) 2002. Towards Precision Measurement of the Neutron Lifetime using Magnetically Trapped Neutrons. (Doyle)

YAVIN, ITAY, B. Sc. (York University, Ontario) 2002. Spin Determination at the Large Hadron Collider. [PDF: ~662 KB] (Arkani-Hamed)

CHILDRESS, LILIAN ISABEL, B.A. (Harvard College) 2001. Coherent manipulation of single quantum systems in the solid state . (Lukin)

CLARK, DAMON ALISTAIR Biophysical Analysis of Thermostatic Behavior in C. elegans . (Samuel)

ERNEBJERG, MORTEN, MPhys (University of Oxford) 2002. Field Theory Methods in Two-Dimensional and Heterotic String Theories . (Strominger)

FARKAS, DANIEL MARTIN, B.S. (Yale University) 2000. An Optical Reference and Frequency Comb for Improved Spectroscopy of Helium . (Gabrielse)

GINSBERG, NAOMI SHAUNA, B.A. (University of Toronto) 2000. (Harvard University) 2002. Manipulations with spatially compressed slow light pulses in Bose-Einstein condensates. (Hau)

HOFFMAN, LAUREN K., B.S. (California Institute of Technology) 2002. Orbital Dynamics in Galaxy Mergers . (Loeb)

HUANG, LISA LI FANG, B.S. (UCLA) 1999. Black Hole Attractors and Gauge Theories . (Strominger)

HUNT, THOMAS PETER, B.S. (Stanford University) 2000. Integrated Circuit / Microfluidic Chips for Dielectric Manipulation . (Westervelt)

IMAMBEKOV, ADILET, B.S. (Moscow Institute of Physics and Technology) 2002. Strongly Correlated Phenomena with Ultracold Atomic Gases . (Demler)

JAFFERIS, DANIEL LOUIS, B.S. (Yale) 2001. Topological String Theory from D-Brane Bound States . (Vafa)

JENKS, ROBERT A., B.A. (Williams College) 1998. Mechanical and neural representations of tactile information in the awake behaving rat somatosensory system . (Stanley/Weitz)

LEBEDEV, ANDRE, B.S. (University of Virginia) 1999. Ratio of Pion Kaon Production in Proton Carbon Interactions . (Feldman)

LIU, JIAYU, B.S. (Nanjing University of China) 2002. (Harvard) 2004. Microscopic origin of the elasticity of F-actin networks . (Weitz)

MATHEY, LUDWIG GUENTER, Vordiplom (University of Heidelberg) 1998. Quantum phases of low-dimensional ultra-cold atom systems. (Castro-Neto/Halperin)

MAXWELL, STEPHEN EDWARD Buffer Gas Cooled Atoms and Molecules: Production, Collisional Studies, and Applications. (Doyle)

MO, YINA, B.S. (University of Science and Technology China) 2002. Theoretical Studies of Growth Processes and Electronic Properties of Nanostructures on Surfaces. (Kaxiras)

PARUCHURI, SRINIVAS S., B. S. (Cornell) 2000. (Harvard University) 2002. Deformations of Free Jets . (Brenner//Weitz)

QIAN, JIANG Localization in a Finite Inhomogeneous Quantum Wire and Diffusion through Random Spheres with Partially Absorbing Surfaces. (Halperin)

RITTER, WILLIAM GORDON, B.A. (University of Chicago) 1999. Euclidean Quantum Field Theory: Curved Spacetimes and Gauge Fields. (Jaffe)

SARAIKIN, KIRILL ANATOLYEVICH, B.S. (Moscow Institute for Physics and Technology) 1999. Black Holes, Entropy Functionals, and Topological Strings. (Vafa)

SCHULZ, ALEXIA EIRINN, B.A. (Boston University ) 1998. (Harvard University) 2000. Astrophysical Probes of Dark Energy. (White/Huth)

SCHUSTER, PHILIP CHRISTIAN, S.B. (Massachusetts Institute of Technology) 2003. ( Harvard University ) 2006. Uncovering the New Standard Model at the LHC . (Arkani-Hamed)

SEUN, SIN MAN, B.A. (Smith College) 2000. B.E. (Dartmouth College) 2000. Measurement of p-K Ratios from the NuMI Target . (Feldman)

SHERMAN, DANIEL JOSEPH, B.A. (University of Pennsylvania ) 2001. Measurement of the Top Quark Pair Production Cross Section with 1.12 fb -1 of pp Collisions at sqrt (s) = 1.96 TeV. ( Franklin )

SIMONS, AARON, B.S. (California Institute of Technology) 2002. Black Hole Superconformal Quantum Mechanics. (Strominger)

SLOWE, CHRISTOPHER BRIAN, AB/AM (Harvard University). Experiments and Simulations in Cooling and Trapping of a High Flux Rubidium Beam. (Hau)

STRIEHL, PIERRE SEBASTIAN, Diploma (University of Heidelberg) 2004. A high-flux cold-atom source for area-enclosing atom interferometry. (Prentiss)

TORO, NATALIA, S.B. (Massachusetts Institute of Technology) 2003. Fundamental Physics at the Threshold of Discovery . (Arkani-Hamed)

WISSNER-GROSS, ALEXANDER DAVID, S.B. (Massachusetts Institute of Technology) 2003. (Harvard University ) 2004. Physically Programmable Surfaces. (Kaxiras)

WONG, WESLEY PHILIP, B.S. (University of British Columbia) 1999. Exploring single-molecule interactions through 3D optical trapping and tracking: from thermal noise to protein refolding . (Evans/Nelson)

ZAW, INGYIN, B.A. (Harvard College) 2001. (Harvard University) 2003. Search for the Flavor Changing Neutral Current Decay t → qZ in pp Collisions at √s = 1.96 TeV. (Franklin)

BRAHMS, NATHANIEL CHARLES, Sc.B. (Brown University) 2001. Trapping of 1 μ β Atoms Using Buffer Gas Loading . (Doyle, Greytak)

BURBANK, KENDRA S., B.A. (Bryn Mawr College) 2000. (Harvard University) 2004. Self-organization mechanisms in the assembly and maintenance of bipolar spindles. (Fisher/Mitchison)

CAMPBELL, WESLEY C., B.S. (Trinity University) 2001. Magnetic Trapping of Imidogen Molecules . (Doyle)

CHAISANGUANTHUM, KRIS SOMBOON, B.S. (Harvard University ) 2001. An Enquiry Concerning Charmless Semileptonic Decays of Bottom Mesons . (Morii)

CHANG, DARRICK, B.S. (Stanford University) 2001. Controlling atom-photon interactions in nano-structured media. (Lukin)

CHOU, JOHN PAUL, A.B. (Princeton University) 2002. (Harvard University) 2006. Production Cross Section Measurement using Soft Electron Tagging in pp Collisions at √s = 1.96 TeV . (Franklin)

DEL MAESTRO, ADRIAN GIUSEPPE, B.S. (University of Waterloo) 2002, (University of Waterloo) 2003. The Superconductor-Metal Quantum Phase Transition in Ultra-Narrow Wires . (Sachdev)

DI CARLO, LEONARDO, B.S. (Stanford University) 1999. (Stanford University) 2000. Mesocopic Electronics Beyond DC Transport . (Marcus)

DUNKEL, EMILY REBECCA, B.S. (University of California Los Angeles) 2001. Quantum Phenomena in Condensed Phase Systems . (Sachdev/Coker)

FINKLER, ILYA GRIGORYEVICH, B.S. (Ohio State University) 2001. Nonlinear Phenomena in Two-Dimensional and Quasi-Two-Dimensional Electron Systems. (Halperin)

FITZPATRICK, ANDREW LIAM, B.S. (University of Chicago) 2004. (Harvard University) 2005. Broken Symmetries and Signatures . (Randall)

GARG, ARTI, A.B., B.S. (Stanford University) 2000. (Stanford University) 2001. (University of Washington) 2002. Microlensing Candidate Selection and Detection Efficiency for the Super MACHO Dark Matter Search . (Stubbs)

GERSHOW, MARC HERMAN, B.S. (Stanford University) 2001. Trapping Single Molecules with a Solid State Nanopore . (Golovchenko)

GRANT, LARS, B.S. (McGill University) 2001. Aspects of Quantization in AdS/CFT . (Vafa/Minwalla)

GUICA, MONICA MARIA, B.A. (University of Chicago) 2003. Supersymmetric Attractors, Topological Strings, and the M5-Brane CFT . (Strominger)

HANNEKE, DAVID ANDREW, B.S. (Case Western) 2001. (Harvard University) 2003. Cavity Control in a Single-Electron Quantum Cyclotron: An Improved Measurement of the Electron Magnetic Moment. (Gabrielse)

HATCH, KRISTI RENEE, B.S. (Brigham Young University) 2004 Probing the mechanical stability of DNA by unzipping and rezipping the DNA at constant force. (Prentiss)

HOHLFELD, EVAN BENJAMIN, B.S. (Stanford University) 2001. Creasing, Point-bifurcations, and the Spontaneous Breakdown of Scale-invariance . (Weitz/Mahadevan)

KATIFORI, ELENI, Ptichion (University of Athens) 2002. (Harvard University) 2004. Vortices, rings and pollen grains: Elasticity and statistical physics in soft matter . (Nelson)

LAPAN, JOSHUA MICHAEL, B.S. (Massachusetts Institute of Technology) 2002. (Harvard University) 2006. Topics in Two-Dimensional Field Theory and Heterotic String Theory . (Strominger)

LE SAGE, DAVID ANTHONY, B.S. (University of California Berkeley) 2002. First Antihydrogen Production within a Combined Penning-Ioffe Trap . (Gabrielse)

LI, WEI, B.S. (Peking University) 1999. (Peking University) 2002. Gauge/Gravity Correspondence and Black Hole Attractors in Various Dimensions . (Strominger)

LU, PETER JAMES, B.A. (Princeton University) 2000. (Harvard University) 2002. Gelation and Phase Separation of Attractive Colloids . (Weitz)

MUNDAY, JEREMY NATHAN, B.S. (Middle Tennessee State University) 2003. (Harvard University) 2005. Attractive, repulsive, and rotational QED forces: experiments and calculations . (Hau/Capasso)

RAJU, SUVRAT, B.S. (St. Stephen’s College) 2002. (Harvard University) 2003. Supersymmetric Partition Functions in the AdS/CFT Conjecture . (Arkani-Hamed/Denef/Minwalla)

RISTROPH, TRYGVE GIBBENS, B.S. (University of Texas at Austin) 1999. Capture and Ionization Detection of Laser-Cooled Rubidium Atoms with a Charged Suspended Carbon Nanotube . (Hau)

SVACHA, GEOFFRY THOMAS, B.S. (University of Michigan) 2002. Nanoscale nonlinear optics using silica nanowires . (Mazur)

TURNER, ARI M., B.A. (Princeton University) 2000. Vortices Vacate Vales and other Singular Tales . (Demler)

BAUMGART, MATTHEW TODD, B.S. (University of Chicago) 2002. The Use of Effective Variables in High Energy Physics . (Georgi/Arkani-Hamed)

BOEHM, JOSHUA ADAM ALPERN, B.S.E. (Case Western Reserve University) 2003. (Harvard University) 2005. A Measurement of Electron Neutrino Appearance with the MINOS Experimen t. (Feldman)

CHEUNG, CLIFFORD WAYNE, B.S. (Yale University) 2004. (Harvard University) 2006. From the Action to the S-Matrix . (Georgi/Arkani-Hamed)

DORET, STEPHEN CHARLES B.A. (Williams College) 2002, A.M. (Harvard University) 2006. A buffer-gas cooled Bose-Einstein condensate . (Doyle)

FALK, ABRAM LOCKHART, B.A. (Swarthmore College) 2003. (Harvard University) 2004. Electrical Plasmon Detection and Phase Transitions in Nanowires . (Park)

HAFEZI, MOHAMMAD, (Sharif University of Technology, Tehran - Ecole Polytechnique, Paris) 2003. (Harvard University) 2005, Strongly interacting systems in AMO physics . (Lukin)

HECKMAN, JONATHAN JACOB, A.B. (Princeton University) 2004. (Harvard University) 2005 F-theory Approach to Particle Physics . (Vafa)

HICKEN, MALCOLM STUART, B.S. (Brigham Young University) 1999. (Harvard University) 2001. Doubling the Nearby Supernova Type Ia Sample . (Stubbs/Kirshner)

HOHENSEE, MICHAEL ANDREW, B.A. (New York University) 2002. (Harvard University) 2004. Testing Fundamental Lorentz Symmetries of Light . (Walsworth)

JIANG, LIANG, B.S. (California Institute of Technology) 2004. T owards Scalable Quantum Communication and Computation: Novel Approaches and Realizations . (Lukin)

KAPLAN, JARED DANIEL, B.S. (Stanford University) 2005. Aspects of Holography . (Georgi/Arkani-Hamed)

KLEIN, MASON JOSEPH, B.S. (Calvin College) 2002. Slow and Stored Light in Atomic Vapor Cells . (Walsworth)

KRICH, JACOB JONATHAN, B.A. (Swarthmore College) 2000, MMath (Oxford University) 2003. (Harvard University) 2004. Electron and Nuclear Spins in Semiconductor Quantum Dots . (Halperin)

LAHIRI, SUBHANEIL, M.A. (Oxford University) 2003. Black holes from fluid mechanics. (Yin/Minwalla)

LIN, YI-CHIA, B.S. (National Taiwan Normal University) 1999. (National Tsing Hua University) 2001. Elasticity of Biopolymer Networks. (Weitz)

LUO, LINJIAO, B.S. (University of Science and Technology China) 2003. Thermotactic behavior in C. elegans and Drosophila larvae. (Samuel)

PADI, MEGHA, B.S. (Massachusetts Institute of Technology) 2003. A Black Hole Quartet: New Solutions and Applications to String Theory. (Strominger)

PASTRAS, GEORGIOS, DIPLOMA (University of Patras) 2002. (Harvard University) 2004. Thermal Field Theory Applications in Modern Aspects of High Energy Physics. (Denef/Arkani-Hamed)

PEPPER, RACHEL E., B.S. (Cambridge) 2004. Splashing, Feeding, Contracting: Drop impact and fluid dynamics of Vorticella (Stone)

SHAFEE, REBECCA, B.S. (California Institute of Technology) 2002. (Harvard University) 2004. Measuring Black Hole Spin. (Narayan/McClintock)

WANG, CHRISTINE YI-TING, B.S. (National Taiwan University) 2002. (Harvard University) 2004. Multiode dynamics in Quantum Cascade Lasers: from coherent instability to mode locking. (Hoffman/Capasso)

ZHANG, YIMING, B.S. (Peking University) 2003. (Harvard University) 2006. Waves, Particles, and Interactions in Reduced Dimensions . (Marcus)

BARTHEL, CHRISTIAN, Diploma (University of Kaiserslautern) 2005. Control and Fast Measurement of Spin Qubits . (Marcus)

CAVANAUGH, STEVEN, B.S. (Rutgers College) 2005. (Harvard University) 2006. A Measurement of Electron Neutrino Appearance in the MINOS Experiment after Four Years of Data . (Feldman)

CHERNG, ROBERT, WEN-CHIEH, B.S. (Massachusetts Institute of Technology) 2004. Non-Equilibrium Dynamics and Novel Quantum Phases of Multicomponent Ultracold Atoms . (Demler)

FOLETTI, SANDRA ELISABETTA, Diploma (Federal Institute of Technology Zurich) 2004. Manipulation and Coherence of a Two-Electron Logical Spin Qubit Using GaAs Double Quantum Dots . (Yacoby)

GIRASH, JOHN ANDREW, B.S. (University of Western Ontario) 1990. (University of Western Ontario) 1993. A Fokker-Planck Study of Dense Rotating Stellar Clusters . (Stubbs/Field)

GOODSELL, ANNE LAUREL, B.A. (Bryn Mawr College) 2002. (Harvard University) 2004. Capture of Laser-Cooled Atoms with a Carbon Nanotube . (Hau)

GORSHKOV, ALEXEY VYACHESLAVOVICH, A.B. (Harvard College) 2004. (Harvard University) 2006. Novel Systems and Methods for Quantum Communication, Quantum Computation, and Quantum Simulation . (Lukin)

GUISE, NICHOLAS DAMIEN SUN-WO, B.S. (California Institute of Technology) 2003. Spin-Flip Resolution Achieved with a One-Proton Self-Excited Oscillator. (Gabrielse)

HARTMAN, THOMAS EDWARD, A.B. (Princeton University) 2004. Extreme Black Hole Holography. (Strominger)

HIGH, FREDRICK WILLIAM, B.A. (University of California Berkeley) 2004. The Dawn of Wide-Field Sunyaev-Zel’dovich Cluster Surveys: Efficient Optical Follow-Up. (Stubbs)

HOOGERHEIDE, DAVID PAUL, B.S. (Western Michigan University) 2004. Stochastic Processes in Solid State Nanoporers. (Golovchenko)

HUMMON, MATTHEW TAYLOR, B.A. (Amherst College) 2002, (Harvard University) 2005. Magnetic trapping of atomic nitrogen and cotrapping of NH. (Doyle)

KATS, YEVGENY, B.S. (Bar-Ilan University) 2003. (Bar-Ilan University) 2005. Physics of Conformal Field Theories. (Georgi/Arkani-Hamed)

KOROLEV, KIRILL SERGEEVICH, B.S. (Moscow Institute of Physics and Technology) 2004. Statistical Physics of Topological Emulsions and Expanding Populations. (Nelson)

LAIRD, EDWARD ALEXANDER, M.Phys (University of Oxford) 2002. (Harvard University) 2005. Electrical Control of Quantum Dot Spin Qubits . (Marcus)

LAROCHELLE, PHILIPPE, B.S. (Massachusetts Institute of Technology) 2003. Machines and Methods for Trapping Antihydrogen. (Gabrielse)

LI, GENE-WEI, B.S. (National Tsinghua University) 2004. Single-Molecule Spatiotemporal Dynamics in Living Bacteria. (Nelson/Xie)

MAZE RIOS, JERONIMO, B.S. (Pont Catholic University), 2002. (Pont Catholic University) 2004. Quantum Manipulation of Nitrogen-Vacancy Centers in Diamond: from Basic Properties to Applications. (Lukin)

PATTERSON, DAVID, A.B. (Harvard College) 1997. Buffer Gas Cooled Beams and Cold Molecular Collisions. (Doyle)

PENG, AMY WAN-CHIH, B.Sc. (University of Auckland), (Australian National University) 2005. Optical Lattices with Quantum Gas Microscope . (Greiner)

QI, YANG, B.S. (Tsinghua University) 2005. Spin and Charge Fluctuations in Strongly Correlated Systems . (Sachdev)

ROJAS, ENRIQUE ROBERTSON, B.A. (University of Pennsylvania) 2003. The Physics of Tip-Growing Cells. (Nelson/Dumais)

SEO, JIHYE, B.S. (Korea Adv. Inst. of Science & Technology) 2003. (Harvard University) 2010. D-Branes, Supersymmetry Breaking, and Neutrinos . (Vafa)

SIMON, JONATHAN, B.S. (California Institute of Technology) 2004. Cavity QED with Atomic Ensembles. (Lukin/Vuletic)

SLATYER, TRACY ROBYN, Ph.B. (Australian National University) 2005. (Harvard University) 2008. Signatures of a New Force in the Dark Matter Sector. (Finkbeiner)

TAFVIZI, ANAHITA, B.S. (Sharif University of Technology) 2004. Single-Molecule and Computational Studies of Protein-DNA Interactions. (Cohen/Mirny/van Oijen)

WINKLER, MARK THOMAS, B.S.E. (Case Western Reserve) 2004. Non-Equilibrium Chalcogen Concentrations in Silicon: Physical Structure, Electronic Transport, and Photovoltaic Potential. (Mazur)

ANNINOS, DIONYSIOS Theodoros,B.A. (Cornell University) 2006, (Harvard University) 2008. Classical and Quantum Symmetries of de Sitter Space . (Strominger) >

BAKR, WASEEM S., B.S. (Massachusetts Institute of Technology) 2005. Microscopic studies of quantum phase transitions in optical lattices . (Greiner)

BARAK, GILAD, B.S. (Hebrew University) 2000, (Tel Aviv University) 2006. Momentum resolved tunneling study of interaction effects in ID electron systems .(Yacoby)

BARANDES, JACOB AARON, B.A. (ColumbiaUniversity) 2004. Exploring Supergravity Landscapes . (Denef)

BISWAS, RUDRO RANA, B.S. (Calcutta University) 2003, (Harvard University) 2011. Explorations in Dirac Fermions and Spin Liquids . (Sachdev)

CHEN, PEIQIU, B.S. (University of Science and Technology China) 2004, (Harvard University) 2005. Molecular evolution and thermal adaptation . (Nelson/Shakhnovich)

FREUDIGER, CHRISTIAN WILHELM, Diploma (Technische Universitat of München) 2005, (Harvard University) 2007. Stimulated Raman Scattering (SRS) Microscopy . (Zhuang/Xie)

GALLICCHIO, JASON RICHARD, B.S. (University of Illinois at Urbana Champaign) 1999, (University of Illinois at Urbana Champaign) 2001. A Multivariate Approach to Jet Substructure and Jet Superstructure . (Schwartz)

GLENDAY, ALEXANDER, B.A. (Williams College) 2002. Progress in Tests of Fundamental Physics Using a 3He and 129Xe Zeeman Maser . (Stubbs/Walsworth)

GOLDMAN, JOSHUA DAVID, A.B. (Cornell University) 2002, (University of Cambridge) 2003, (Imperial College London) 2004. Planar Penning Traps with Anharmonicity Compensation for Single-Electron Qubits. (Gabrielse)

HUH, YEJIN, B.S. (Yale University) 2006, (Harvard University) 2008. Quantum Phase Transitions in d-wave Superconductors and Antiferromagnetic Kagome Lattices . (Sachdev)

KASHIF, LASHKAR, B.S. (Yale University) 2003. Measurement of the Z boson cross-section in the dimuon channel in pp collisions at sqrt{s} = 7 TeV . (Huth)

KAZ, DAVID MARTIN, B.S. (University of Arizona) 2003, (Harvard University) 2008. Colloidal Particles and Liquid Interfaces: A Spectrum of Interactions. (Manoharan)

KOLTHAMMER, WILLIAM STEVEN, B.S. (Harvey Mudd College) 2004, (Harvard University) 2006. Antimatter Plasmas Within a Penning-Ioffe Trap . (Gabrielse)

LEE-BOEHM, CORRY LOUISE, B.S.E. (University of Colorado) 2004, (Harvard University) 2011. B0 Meson Decays to rho0 K*0, f0 K*0, and rho- K*+, Including Higher K* Resonances . (Morii)

MARTINEZ-OUTSCHOORN, VERENA INGRID, B.A. (Harvard University) 2004, (Harvard University) 2007. Measurement of the Charge Asymmetry of W Bosons Produced in pp Collisions at sqrt(s) = 7 TeV with the ATLAS Detector . (Guimaraes da Costa)

MCCONNELL, ROBERT PURYEAR, B.S. (Stanford University) 2005, (Harvard University) 2007. Laser-Controlled Charge-Exchange Production of Antihydrogen . (Gabrielse)

MCGORTY, RYAN, B.S. (University of Massachusetts) 2005, (Harvard University) 2008. Colloidal Particles at Fluid Interfaces and the Interface of Colloidal Fluids . (Manoharan)

METLITSKI, MAXIM A., B.Sc. (University of British Columbia) 2003, (University of British Columbia) 2005. Aspects of Critical Behavior of Two Dimensional Electron Systems . (Sachdev)

MOON, EUN GOOK, B.S. (Seoul National University) 2005 Superfluidity in Strongly Correlated Systems . (Sachdev)

PETERSON, COURTNEY MARIE, B.S. (Georgetown University) 2002,(University of Cambridge) 2003, (Imperial College London) 2004, (Harvard University) 2007. Testing Multi-Field Inflation . (Stubbs/Tegmark)

PIELAWA, SUSANNE, Diploma (UNIVERSITY OF ULM) 2006, (Harvard University) 2009. Metastable Phases and Dynamics of Low-DimensionalStrongly-Correlated Atomic Quantum Gases . (Sachdev)

PRASAD, SRIVAS, A.B. (Princeton University) 2005, (Harvard University) 2007. Measurement of the Cross-Section of W Bosons Produced in pp Collisions at √s=7 TeV With the ATLAS Detector . (Guimaraes da Costa)

ROMANOWSKY, MARK, B.A. (Swarthmore College) 2003. High Throughput Microfluidics for Materials Synthesis . (Weitz)

SMITH, BEN CAMPBELL, B.A. (Harvard University) 2005. Measurement of the Transverse Momentum Spectrum of W Bosons Produced at √s = 7 TeV using the ATLAS Detector . (Morii)

TANJI, HARUKA, B.S. (University of Tokyo) 2002, (University of Tokyo) 2005, (Harvard University) 2009. Few-Photon Nonlinearity with an Atomic Ensemble in an Optical Cavity . (Lukin/Vuletic)

TRODAHL, HALVAR JOSEPH, B. Sc. (Victoria University) 2005, (Harvard University) 2008. Low Temperature Scanning Probe Microscope for Imaging Nanometer Scale Electronic Devices. (Westervelt)

WILLIAMS, TESS, B.Sc. (Stanford University) 2005. Nanoscale Electronic Structure of Cuprate Superconductors Investigated with Scanning Tunneling Spectroscopy. (Hoffman)

ANDERSEN, JOSEPH, B.S. (Univ. of Queensland) 1999. Investigations of the Convectively Coupled Equatorial Waves and the Madden-Julian Oscillation. (Huth)

BREDBERG, IRENE, M.PHYS., M.Sc. (Univ. of Oxford) 2006, 2007. The Einstein and the Navier-Stokes Equations: Connecting the Two . (Strominger)

CHURCHILL, HUGH, B.A., B.M. (Oberlin College) 2006. Quantum Dots in Gated Nanowires and Nanotubes. (Marcus)

CONNOLLY, COLIN Inelastic Collisions of Atomic Antimony, Aluminum, Eerbium and Thulium Below . (Doyle)

CORDOVA, CLAY, B.A. (Columbia University) 2007. Supersymmetric Spectroscopy. (Vafa)

DILLARD, COLIN, S.B. (Massachusetts Institute of Technology) 2006. Quasiparticle Tunneling and High Bias Breakdown in the Fractional Quantum Hall Effect. (Kastner/Silvera)

DOWD, JASON, A.B. (Washington Univ.) 2006;(Harvard Univ.) 2008. Interpreting Assessments of Student Learning in the Introductory Physics Classroom and Laboratory. (Mazur)

GOLDSTEIN, GARRY Applications of Many Body Dynamics of Solid State Systems to Quantum Metrology and Computation (Chamon/Sachdev)

GUREVICH, YULIA, B.S. (Yale University) 2005. Preliminary Measurements for an Electron EDM Experiment in ThO. (Gabrielse)

KAGAN, MICHAEL, B.S. (Univ. of Michigan) 2006; (Harvard Univ.) 2008. Measurement of the W ± Z production cross section and limits on anomalous triple gauge couplings at √S = 7 TeV using the ATLAS detector. (Morii)

LIN, TONGYAN, S.B. (Massachusetts Institute of Technology) 2007; (Harvard Univ.) 2009. Signals of Particle Dark Matter. (Finkbeiner)

McCLURE, DOUGLAS, B.A. (Harvard University) 2006; (Harvard University) 2008. Interferometer-Based Studies of Quantum Hall Phenomena. (Marcus)

MAIN, ELIZABETH, B.S.(Harvey Mudd College) 2004; (Harvard Univ.) 2006. Investigating Atomic Scale Disordered Stripes in the Cuprate Superconductors with Scanning Tunneling Microscopy. (Hoffman)

MASON, DOUGLAS Toward a Design Principle in Mesoscopic Systems . (Heller/Kaxiras)

MULUNEH, MELAKU, B.A. (Swarthmore College) 2003. Soft colloids from p(NIPAm-co-AAc): packing dynamics and structure. (Weitz)

PIVONKA, ADAM Nanoscale Imaging of Phase Transitions with Scanning Force Microscopy . (Hoffman)

REAL, ESTEBAN, A.B. (Harvard University) 2002; (Harvard University) 2007. Models of visual processing by the retina. (Meister/Franklin)

RICHERME, PHILIP, S.B. (Massachusetts Institute of Technology) 2006; (Harvard University) 2008. Trapped Antihydrogen in Its Ground State. (Gabrielse)

SANTOS, LUIZ, B.S. (Univ. Fed. Do Espito Santo) 2004. Topological Properties of Interacting Fermionic Systems. (Chamon/Halperin)

SCHLAFLY, EDWARD, B.S. (Stanford University) 2007; (Harvard University) 2011. Dust in Large Optical Surveys. (Finkbeiner)

SETIAWAN, WIDAGDO, B.S. (Massachusetts Institute of Technology) 2007. Fermi Gas Microscope . (Greiner)

SHUVE, BRIAN, B.A.Sc. (University of Toronto) 2007; (Harvard University) 2011. Dark and Light: Unifying the Origins of Dark and Visible Matter. (Randall)

SIMMONS-DUFFIN, DAVID, A.B., A.M. (Harvard University) 2006. Carving Out the Space of Conformal Field Theories. (Randall)

TEMPEL, DAVID, B.A. (Hunter College) 2007. Time-dependent density functional theory for open quantum systems and quantum computation. (Aspuru-Guzik/Cohen)

VENKATCHALAM, VIVEK, S.B. (Massachusetts Institute of Technology) 2006. Single Electron Probes of Fractional Quantum Hall States. (Yacoby)

VLASSAREV, DIMITAR, B.S. (William and Mary) 2005; (Harvard University) 2007. DNA Characterization with Solid-State Nanopores and Combined Carbon Nanotube across Solid-State Nanopore Sensors . (Golovchenko)

WANG, WENQIN, B.S. (Univ. of Science and Technology of China) 2006. Structures and dynamics in live bacteria revealed by super-resolution fluorescence microscopy. (Zhuang)

WANG, YIHUA Laser-Based Angle-Resolved Photoemission Spectroscopy of Topological Insulators. (Gedik / Hoffman)

WISSNER-GROSS, ZACHARY Symmetry Breaking in Neuronal Development. (Yanik /Levine)

YONG, EE HOU, B.Sc. (Stanford University) 2003. Problems at the Nexus of Geometry and Soft Matter: Rings, Ribbons and Shells. (Mahadevan)

ANOUS, TAREK Explorations in de Sitter Space and Amorphous Black Hole Bound States in String Theory . (Strominger)

BABADI, MEHRTASH Non-Equilibrium Dynamics of Artificial Quantum Matter . (Demler)

BRUNEAUX, LUKE Multiple Unnecessary Protein Sources and Cost to Growth Rate in E.coli. (Prentiss)

CHIEN, YANG TING Jet Physics at High Energy Colliders Matthew . (Schwartz)

CHOE, HWAN SUNG Choe Modulated Nanowire Structures for Exploring New Nanoprocessor Architectures and Approaches to Biosensing. (Lieber/Cohen)

COPETE, ANTONIO BAT Slew Survey (BATSS): Slew Data Analysis for the Swift-BAT Coded Aperture Imaging Telescope . (Stubbs)

DATTA, SUJIT Getting Out of a Tight Spot: Physics of Flow Through Porous Materials . (Weitz)

DISCIACCA, JACK First Single Particle Measurements of the Proton and Antiproton Magnetic Moments . (Gabrielse)

DORR, JOSHUA Quantum Jump Spectroscopy of a Single Electron in a New and Improved Apparatus . (Gabrielse )

DZYABURA, VASILY Pathways to a Metallic Hydrogen . (Silvera)

ESPAHBODI, SAM 4d Spectra from BPS Quiver Dualities. (Vafa)

FANG, JIEPING New Methods to Create Multielectron Bubbles in Liquid Helium . (Silvera)

FELDMAN, BEN Measurements of Interaction-Driven States in Monolayer and Bilayer Graphene . (Yacoby)

FOGWELL HOOGERHEIDE, SHANNON Trapped Positrons for High-Precision Magnetic Moment Measurements . (Gabrielse)

FUNG, JEROME Measuring the 3D Dynamics of Multiple Colloidal Particles with Digital Holographic Microscopy . (Manoharan)

GULLANS, MICHAEL Controlling Atomic, Solid-State and Hybrid Systems for Quantum Information Processing. (Lukin)

JAWERTH, LOUISE MARIE The Mechanics of Fibrin Networks and their Alterations by Platelets . (Weitz)

JEANTY, LAURA Measurement of the WZ Production Cross Section in Proton-Proton Collision at √s = 7 TeV and Limits on Anomalous Triple Gauge Couplings with the ATLAS Detector . (Franklin)

JENSEN, KATHERINE Structure and Defects of Hard-Sphere Colloidal Crystals and Glasses . (Weitz)

KAHAWALA, DILANI S Topics on Hadron Collider Physics . (Randall)

KITAGAWA, TAKUYA New Phenomena in Non-Equilibrium Quantum Physics . (Demler)

KOU, ANGELA Microscopic Properties of the Fractional Quantum Hall Effect . (Halperin)

LIN, TINA Dynamics of Charged Colloids in Nonpolar Solvents . (Weitz)

MCCORMICK, ANDREW Discrete Differential Geometry and Physics of Elastic Curves . (Mahadevan)

REDDING, JAMES Medford Spin Qubits in Double and Triple Quantum Dots . (Marcus/Yacoby)

NARAYAN, GAUTHAM Light Curves of Type Ia Supernovae and Preliminary Cosmological Constraints from the ESSENCE Survey . (Stubbs)

PAN, TONY Properties of Unusually Luminous Supernovae . (Loeb)

RASTOGI, ASHWIN Brane Constructions and BPS Spectra . (Vafa)

RUEL, JONATHAN Optical Spectroscopy and Velocity Dispersions of SZ-selected Galaxy Clusters . (Stubbs)

SHER, MENG JU Intermediate Band Properties of Femtosecond-Laser Hyperdoped Silicon . (Mazur)

TANG, YIQIAO Chirality of Light and Its Interaction with Chiral Matter . (Cohen)

TAYCHATANAPAT, THITI From Hopping to Ballistic Transport in Graphene-Based Electronic Devices . (Jarillo-Herrero/Yacoby)

VISBAL, ELI Future Probes of Cosmology and the High-Redshift Universe . (Loeb)

ZELJKOVIC, ILIJA Visualizing the Interplay of Structural and Electronic Disorders in High-Temperature Superconductors using Scanning Tunneling Microscopy . (Hoffman)

ZEVI DELLA PORTA, GIOVANNI Measurement of the Cross-Section for W Boson Production in Association With B-Jets in Proton-Proton Collisions at √S = 7 Tev at the LHC Using the ATLAS Detector . (Franklin)

AU, YAT SHAN LinkInelastic collisions of atomic thorium and molecular thorium monoxide with cold helium-3. (Doyle)

BARR, MATTHEW Coherent Scattering in Two Dimensions: Graphene and Quantum Corrals . (Heller)

CHANG, CHI-MING Higher Spin Holography. (Yin)

CHU, YIWEN Quantum optics with atom-like systems in diamond. (Lukin)

GATANOV, TIMUR Data-Driven Analysis of Mitotic Spindles . (Needleman/Kaxiras)

GRINOLDS, MICHAEL Nanoscale magnetic resonance imaging and magnetic sensing using atomic defects in diamond. (Yacoby)

GUERRA, RODRIGO Elasticity of Compressed Emulsions . (Weitz)

HERRING, PATRICK LinkLow Dimensional Carbon Electronics. (Jarillo-Herrero/Yacoby)

HESS, PAUL W. LinkImproving the Limit on the Electron EDM: Data Acquisition and Systematics Studies in the ACME Experiment. (Gabrielse)

HOU, JENNIFER Dynamics in Biological Soft Materials . (Cohen)

HUBER, FLORIAN Site-Resolved Imaging with the Fermi Gas Microscope. (Greiner)

HUTZLER, NICHOLAS A New Limit on the Electron Electric Dipole Moment . (Doyle)

KESTIN, GREG Light-Shell Theory Foundations. (Georgi)

LYSOV, VYACHESLAV From Petrov-Einstein to Navier-Stokes. (Strominger)

MA, RUICHAO Engineered Potentials and Dynamics of Ultracold Quantum Gases under the Microscope. (Greiner)

MAURER, PETER Coherent control of diamond defects for quantum information science and quantum sensing. (Lukin)

NG, GIM SENG Aspects of Symmetry in de Sitter Space. (Strominger)

NICOLAISEN, LAUREN Distortions in Genealogies due to Purifying Selection. (Desai)

NURGALIEV, DANIYAR A Study of the Radial and Azimuthal Gas Distribution in Massive Galaxy Clusters. (Stubbs)

RUBIN, DOUGLAS Properties of Dark Matter Halos and Novel Signatures of Baryons in Them . (Loeb)

RUSSELL, EMILY Structure and Properties of Charged Colloidal Systems. (Weitz)

SHIELDS, BRENDAN Diamond Platforms for Nanoscale Photonics and Metrology. (Lukin)

SPAUN, BENJAMIN A Ten-Fold Improvement to the Limit of the Electron Electric Dipole Moment. (Gabrielse)

YAO, NORMAN Topology, Localization, and Quantum Information in Atomic, Molecular and Optical Systems. (Lukin)

YEE, MICHAEL Scanning Tunneling Spectroscopy of Topological Insulators and Cuprate Superconductors. (Hoffman)

BENJAMIN, DAVID ISAIAH Impurity Physics in Resonant X-Ray Scattering and Ultracold Atomic Gases . (Demler)

BEN-SHACH, GILAD Theoretical Considerations for Experiments to Create and Detect Localised Majorana Modes in Electronic Systems. (Halperin/Yacoby)

CHANG, WILLY Superconducting Proximity Effect in InAs Nanowires . (Marcus/Yacoby)

CHUNG, HYEYOUN Exploring Black Hole Dynamics . (Randall)

INCORVIA, JEAN ANNE CURRIVAN Nanoscale Magnetic Materials for Energy-Efficient Spin Based Transistors. (Westervelt)

FEIGE, ILYA ERIC ALEXANDER Factorization and Precision Calculations in Particle Physics. (Schwartz)

FRENZEL, ALEX Terahertz Electrodynamics of Dirac Fermions in Graphene. (Hoffman)

HSU, CHIA WEI Novel Trapping and Scattering of Light in Resonant Nanophotonic Structures. (Cohen)

JORGOLLI, MARSELA Integrated nanoscale tools for interrogating living cells. (Park)

KALRA, RITA RANI An Improved Antihydrogen Trap. (Gabrielse)

KOLKOWITZ, SHIMON JACOB Nanoscale Sensing with Individual Nitrogen-Vacancy Centers in Diamond. (Lukin)

LAVRENTOVICH, MAXIM OLEGOVICH Diffusion, Absorbing States, and Nonequilibrium Phase Transitions in Range Expansions and Evolution. (Nelson)

LIU, BO Selected Topics in Scattering Theory: From Chaos to Resonance. (Heller)

LOCKHART, GUGLIELMO PAUL Self-Dual Strings of Six-Dimensional SCFTs . (Vafa)

MAGKIRIADOU, SOFIA Structural Color from Colloidal Glasses. (Manoharan)

MCIVER, JAMES W. Nonlinear Optical and Optoelectronic Studies of Topological Insulator Surfaces. (Hoffman)

MEISNER, AARON MICHAEL Full-sky, High-resolution Maps of Interstellar Dust. (Finkbeiner)

MERCURIO, KEVIN MICHAEL A Search for the Higgs Boson Produced in Association with a Vector Boson Using the ATLAS Detector at the LHC. (Huth)

NOWOJEWSKI, ANDRZEJ KAZIMIERZ Pathogen Avoidance by Caenorhabditis Elegans is a Pheromone-Mediated Collective Behavior. (Levine)

PISKORSKI, JULIA HEGE Cooling, Collisions and non-Sticking of Polyatomic Molecules in a Cryogenic Buffer Gas Cell. (Doyle)

SAJJAD, AQIL An Effective Theory on the Light Shell. (Georgi)

SCHADE, NICHOLAS BENJAMIN Self-Assembly of Plasmonic Nanoclusters for Optical Metafluids. (Manoharan)

SHULMAN, MICHAEL DEAN Entanglement and Metrology with Singlet-Triplet Qubits. (Yacoby)

SPEARMAN, WILLIAM R. Measurement of the Mass and Width of the Higgs Boson in the H to ZZ to 4l Decay Channel Using Per-Event Response Information. (Guimaraes da Costa)

THOMPSON, JEFFREY DOUGLAS A Quantum Interface Between Single Atoms and Nanophotonic Structures. (Lukin)

WANG, TOUT TAOTAO Small Diatomic Alkali Molecules at Ultracold Temperatures. (Doyle)

WONG, CHIN LIN Beam Characterization and Systematics of the Bicep2 and Keck Array Cosmic Microwave Background Polarization Experiments. (Kovac)

AGARWAL, KARTIEK Slow Dynamics in Quantum Matter: the Role of Dimensionality, Disorder and Dissipation. (Demler)

ALLEN, MONICA Quantum electronic transport in mesoscopic graphene devices. (Yacoby)

CHAE, EUNMI Laser Slowing of CaF Molecules and Progress towards a Dual-MOT for Li and CaF. (Doyle)

CHOTIBUT, THIPARAT Aspects of Statistical Fluctuations in Evolutionary and Population Dynamics. (Nelson)

CHOWDHURY, DEBANJAN Interplay of Broken Symmetries and Quantum Criticality in Correlated Electronic Systems. (Sachdev)

CLARK, BRIAN Search for New Physics in Dijet Invariant Mass Spectrum. (Huth)

FARHI, DAVID Jets and Metastability in Quantum Mechanics and Quantum Field Theory. (Schwartz)

FORSYTHE, MARTIN Advances in Ab Initio Modeling of the Many-Body Effects of Dispersion Interactions in Functional Organic Materials. (Aspuru-Guzik/Ni)

GOOD, BENJAMIN Molecular evolution in rapidly evolving populations. (Desai)

HART, SEAN Electronic Phenomena in Two-Dimensional Topological Insulators. (Yacoby)

HE, YANG Scanning Tunneling Microscopy Study on Strongly Correlated Materials. (Hoffman)

HIGGINBOTHAM, ANDREW Quantum Dots for Conventional and Topological Qubits. (Marcus/Westervelt)

HUANG, DENNIS Nanoscale Investigations of High-Temperature Superconductivity in a Single Atomic Layer of Iron Selenide. (Hoffman)

ISAKOV, ALEXANDER The Collective Action Problem in a Social and a Biophysical System. (Mahadevan)

KLALES, ANNA A classical perspective on non-diffractive disorder. (Heller)

KOBY, TIMOTHY Development of a Trajectory Model for the Analysis of Stratospheric Water Vapor. (Anderson/Heller)

KOMAR, PETER Quantum Information Science and Quantum Metrology: Novel Systems and Applications. (Lukin)

KUCSCKO, GEORG Coupled Spins in Diamond: From Quantum Control to Metrology and Many-Body Physics. (Lukin)

LAZOVICH, TOMO Observation of the Higgs boson in the WW* channel and search for Higgs boson pair production in the bb ̅bb ̅ channel with the ATLAS detector. (Franklin)

LEE, JUNHYUN Novel quantum phase transitions in low-dimensional systems. (Sachdev)

LIN, YING-HSUAN Conformal Bootstrap in Two Dimensions. (Yin)

LUCAS, ANDREW Transport and hydrodynamics in holography, strange metals and graphene. (Sachdev)

MACLAURIN, DOUGAL Modeling, Inference and Optimization with Composable Differentiable Procedures. (Adams/Cohen)

PARSONS, MAXWELL Probing the Hubbard Model with Single-Site Resolution. (Greiner)

PATEJ, ANNA Distributions of Gas and Galaxies from Galaxy Clusters to Larger Scales. (Eisenstein/Loeb/Finkbeiner)

PITTMAN, SUZANNE The Classical-Quantum Correspondence of Polyatomic Molecules. (Heller)

POPA, CRISTINA Simulating the Cosmic Gas: From Globular Clusters to the Most Massive Haloes. (Randall)

PORFYRIADIS, ACHILLEAS Gravitational waves from the Kerr/CFT correspondence . (Strominger)

PREISS, PHILIPP Atomic Bose-Hubbard systems with single-particle control. (Greiner)

SHAO, SHU-HENG Supersymmetric Particles in Four Dimensions. (Yin)

YEN, ANDY Search for Weak Gaugino Production in Final States with One Lepton, Two b-jets Consistent with a Higgs Boson, and Missing Transverse Momentum with the ATLAS detector. (Huth)

BERCK, MATTHEW ELI Reconstructing and Analyzing the Wiring Diagram of the Drosophila Larva Olfactory System. (Samuel)

COUGHLIN, MICHAEL WILLIAM Gravitational Wave Astronomy in the LSST Era. (Stubbs)

DIMIDUK, THOMAS Holographic Microscopy for Soft Matter and Biophysics. (Manoharan)

FROST, WILLIAM THOMAS Tunneling in Quantum Field Theory and the Fate of the Universe. (Schwartz)

JERISON, ELIZABETH Epistasis and Pleiotropy in Evolving Populations. (Desai)

KAFKA, GARETH A Search for Sterile Neutrinos at the NOνA Far Detector. (Feldman)

KOSHELEVA, EKATERINA Genetic Draft and Linked Selection in Rapidly Adapting Populations. (Desai)

KOSTINSKI, SARAH VALERIE Geometrical Aspects of Soft Matter and Optical Systems. (Brenner)

KOZYRYEV, IVAN Laser Cooling and Inelastic Collisions of the Polyatomic Radical SrOH. (Doyle)

KRALL, REBECCA Studies of Dark Matter and Supersymmetry. (Reece)

KRAMER, ERIC DAVID Observational Constraints on Dissipative Dark Matter. (Randall)

LEE, LUCY EUNJU Network Analysis of Transcriptome to Reveal Interactions Among Genes and Signaling Pathways. (Levine)

LOVCHINSKY, IGOR Nanoscale Magnetic Resonance Spectroscopy Using Individual Spin Qubits. (Lukin)

LUPSASCA, ALEXANDRU The Maximally Rotating Black Hole as a Critical Point in Astronomy. (Strominger)

MANSURIPUR, TOBIAS The Effect of Intracavity Field Variation on the Emission Properties of Quantum Cascade Lasers. (Capasso/Yacoby)

MARANTAN, ANDREW WILLIAM The Roles of Randomness in Biophysics: From Cell Growth to Behavioral Control. (Mahadevan)

MASHIAN, NATALIE Modeling the Constituents of the Early Universe. (Loeb/Stubbs)

MAZURENKO, ANTON Probing Long Range Antiferromagnetism and Dynamics in the Fermi-Hubbard Model. (Greiner)

MITRA, PRAHAR Asymptotic Symmetries in Four Dimensional Gauge and Gravity Theories. (Strominger)

NEAGU, IULIA ALEXANDRA Evolutionary Dynamics of Infection. (Nowak/Prentiss)

PETRIK WEST, ELIZABETH A Thermochemical Cryogenic Buffer Gas Beam Source of ThO for Measuring the Electric Dipole Moment of the Electron. (Doyle)

RUDELIUS, THOMAS Topics in the String Landscape and the Swampland. (Vafa)

SAKLAYEN, NABIHA Laser-Activated Plasmonic Substrates for Intracellular Delivery. (Mazur)

SIPAHIGIL, ALP Quantum Optics with Diamond Color Centers Coupled to Nanophotonic Devices. (Lukin)

SUN, SIYUAN Search for the Supersymmetric Partner to the Top Quark Using Recoils Against Strong Initial State Radiation. (Franklin)

TAI, MING ERIC Microscopy of Interacting Quantum Systems. (Greiner)

TOLLEY, EMMA Search for Evidence of Dark Matter Production in Monojet Events with the ATLAS Detector. (Morii)

WILSON, ALYSSA MICHELLE New Insights on Neural Circuit Refinement in the Central Nervous System: Climbing Fiber Synapse Elimination in the Developing Mouse Cerebellum Studied with Serial-Section Scanning Electron Microscopy. (Lichtman/Samuel)

BAUCH, ERIK Optimizing Solid-State Spins in Diamond for Nano- to Millimeter scale Magnetic Field Sensing. (Walsworth)

BRACHER, DAVID OLMSTEAD Development of photonic crystal cavities to enhance point defect emission in silicon carbide. (Hu: SEAS)

CHAN, STEPHEN KAM WAH Orthogonal Decompositions of Collision Events and Measurement Combinations in Standard Model $VH\left(b\bar{b}\right)$ Searches with the ATLAS Detector. (Huth)

CHATTERJEE, SHUBHAYU Transport and symmetry breaking in strongly correlated matter with topological order. (Sachdev)

CHOI, SOONWON Quantum Dynamics of Strongly Interacting Many-Body Systems. (Lukin)

CONNORS, JAKE Channel Length Scaling in Microwave Graphene Field Effect Transistors. (Kovac)

DAHLSTROM, ERIN KATRINA Quantifying and modeling dynamics of heat shock detection and response in the intestine of Caenorhabditis elegans. (Levine)

DAYLAN, TANSU A Transdimensional Perspective on Dark Matter. (Finkbeiner)

DOVZHENKO, YULIYA Imaging of Condensed Matter Magnetism Using an Atomic-Sized Sensor. (Yacoby)

EVANS, RUFFIN ELEY An integrated diamond nanophotonics platform for quantum optics. (Lukin)

FLEMING, STEPHEN Probing nanopore - DNA interactions with MspA. (Golovchenko)

FRYE, CHRISTOPHER Understanding Jet Physics at Modern Particle Colliders. (Schwartz)

FU, WENBO The Sachdev-Ye-Kitaev model and matter without quasiparticles. (Sachdev)

GOLDMAN, MICHAEL LURIE Coherent Optical Control of Atom-Like Defects in Diamond: Probing Internal Dynamics and Environmental Interactions. (Lukin)

HE, TEMPLE MU On Soft Theorems and Asymptotic Symmetries in Four Dimensions. (Strominger)

HOYT, ROBERT Understanding Catalysts with Density Functional Theory and Machine Learning. (Kaxiras)

KAPEC, DANIEL STEVEN Aspects of Symmetry in Asymptotically Flat Spacetimes. (Strominger)

LEE, ALBERT Mapping the Relationship Between Interstellar Dust and Radiation in the Milky Way. (Finkbeiner)

LEE, JAEHYEON Prediction and Inference Methods for Modern Astronomical Surveys (Eisenstein, Finkbeiner)

LUKIN, ALEXANDER Entanglement Dynamics in One Dimension -- From Quantum Thermalization to Many-Body Localization (Greiner)

NOVITSKI, ELISE M. Apparatus and Methods for a New Measurement of the Electron and Positron Magnetic Moments. (Gabrielse)

PATHAK, ABHISHEK Holography Beyond AdS/CFT: Explorations in Kerr/CFT and Higher Spin DS/CFT. (Strominger)

PETERMAN, NEIL Sequence-function models of regulatory RNA in E. coli. (Levine)

PICK, ADI Spontaneous Emission in Nanophotonics. (Johnson: MIT)

PO, HOI CHUN Keeping it Real: An Alternative Picture for Symmetry and Topology in Condensed Matter Systems. (Vishwanath)

REN, HECHEN Topological Superconductivity in Two-Dimensional Electronic Systems. (Yacoby)

ROXLO, THOMAS Opening the black box of neural nets: case studies in stop/top discrimination. (Reece)

SHTYK, OLEKSANDR Designing Singularities in Electronic Dispersions (Chamon, Demler)

TONG, BAOJIA Search for pair production of Higgs bosons in the four b quark final state with the ATLAS detector. (Franklin)

WHITSITT, SETH Universal non-local observables at strongly interacting quantum critical points. (Sachdev)

YAN, KAI Factorization in hadron collisions from effective field theory. (Schwartz)

AMATOGRILL, JESSE A Fast 7Li-based Quantum Simulator (Ketterle, Greiner)

BARON, JACOB Tools for Higher Dimensional Study of the Drosophila Larval Olfactory System (Samuel)

BUZA, VICTOR Constraining Primordial Gravitational Waves Using Present and Future CMB Experiments (Kovac)

CHAEL, ANDREW Simulating and Imaging Supermassive Black Hole Accretion Flows (Narayan, Dvorkin)

CHIU, CHRISTIE Quantum Simulation of the Hubbard Model (Greiner)

DIPETRILLO, KARRI Search for Long-Lived, Massive Particles in Events with a Displaced Vertex and a Displaced Muon Using sqrt{s} = 13 TeV pp-Collisions with the ATLAS Detector (Franklin)

FANG, SHIANG Multi-scale Theoretical Modeling of Twisted van der Waals Bilayers (Kaxiras)

GAO, PING Traversable Wormholes and Regenesis (Jafferis)

GONSKI, JULIA Probing Natural Supersymmetry with Initial State Radiation: the Search for Stops and Higgsinos at ATLAS (Morii)

HARVEY, SHANNON Developing Singlet-Triplet Qubits in Gallium Arsenide as a Platform for Quantum Computing (Yacoby)

JEFFERSON, PATRICK Geometric Deconstruction of Supersymmetric Quantum Field Theories (Vafa)

KANG, MONICA JINWOO Two Views on Gravity: F-theory and Holography (Jafferis)

KATES-HARBECK, JULIAN Tackling Complexity and Nonlinearity in Plasmas and Networks Using Artificial Intelligence and Analytical Methods (Desai, Nowak)

KLEIN, ELLEN Structure and Dynamics of Colloidal Clusters (Manoharan)

LEVIN, ANDREI Single-Electron Probes of Two-Dimensional Materials (Yacoby)

LIU, XIAOMENG Correlated Electron States in Coupled Graphene Double-Layer Heterostructures (Kim)

LIU, LEE Building Single Molecules – Reactions, Collisions, and Spectroscopy of Two Atoms (Ni)

MARABLE, KATHRYN Progress Towards a Sub-ppb Measurement of the Antiproton Magnetic Moment (Gabrielse)

MARSHALL, MASON New Apparatus and Methods for the Measurement of the Proton and Antiproton Magnetic Moments (Gabrielse)

MCNAMARA, HAROLD Synthetic Physiology: Manipulating and Measuring Biological Pattern Formation with Light (Cohen)

MEMET, EDVIN Parking, Puckering, and Peeling in Small Soft Systems (Mahadevan)

MUKHAMETZHANOV, BAURZHAN Bootstrapping High-Energy States in Conformal Field Theories (Jafferis)

OLSON, JOSEPH Plasticity and Firing Rate Dynamics in Leaky Integrate-and-Fire Models of Cortical Circuits (Kreiman)

PANDA, CRISTIAN Order of Magnitude Improved Limit on the Electric Dipole Moment of the Electron (Gabrielse)

PASTERSKI, SABRINA Implications of Superrotations (Strominger)

PATE, MONICA Aspects of Symmetry in the Infrared (Strominger)

PATEL, AAVISHKAR Transport, Criticality, and Chaos in Fermionic Quantum Matter at Nonzero Density (Sachdev)

PHELPS, GREGORY A Dipolar Quantum Gas Microscope (Greiner)

RISPOLI, MATTHEW Microscopy of Correlations at a Non-Equilibrium Phase Transition (Greiner)

ROLOFF, JENNIFER Exploring the Standard Model and beyond with jets from proton-proton collisions at sqrt(s)=13 TeV with the ATLAS Experiment (Huth)

ROWAN, MICHAEL Dissipation of Magnetic Energy in Collisionless Accretion Flows (Narayan and Morii)

SAFIRA, ARTHUR NV Magnetic Noise Sensing and Quantum Information Processing, and Llevitating Micromagnets over Type-II Superconductors (Lukin)

SHI, YICHEN Analytical Steps Towards the Observation of High-Spin Black Holes (Strominger)

THOMSON, ALEXANDRA Emergent Dapless Fermions in Strongly-Correlated Phases of Matter and Quantum Critical Points (Sachdev)

WEBB, TATIANA The Nanoscale Structure of Charge Order in Cuprate Superconductor Bi2201 (Hoffman)

WESSELS, MELISSA Progress Toward a Single-Electron Qubit in an Optimized Planar Penning Trap (Gabrielse)

WILLIAMS, MOBOLAJI Biomolecules, Combinatorics, and Statistical Physics (Shakhnovich, Manoharan)

XIONG, ZHAOXI Classification and Construction of Topological Phases of Quantum Matter (Vishwanath)

ZOU, LIUJUN An Odyssey in Modern Quantum Many-Body Physics (Todadri, Sachdev)

ANDEREGG, LOÏC Ultracold molecules in optical arrays: from laser cooling to molecular collisions (Doyle)

BALTHAZAR, BRUNO 2d String Theory and the Non-Perturbative c=1 Matrix Model (Yin)

BAUM, LOUIS Laser cooling and 1D magneto-optical trapping of calcium monohydroxide (Doyle)

CARR, STEPHEN Moiré patterns in 2D materials (Kaxiras)

COLLIER, SCOTT Aspects of local conformal symmetry in 1+1 dimensions (Yin)

DASGUPTA, ISHITA Algorithmic approaches to ecological rationality in humans and machines (Mahadevan)

DILLAVOU, SAMUEL Hidden Dynamics of Static Friction (Manoharan)

FLAMANT, CEDRIC Methods for Converging Solutions of Differential Equations: Applying Imaginary Time Propagation to Density Functional Theory and Unsupervised Neural Networks to Dynamical Systems (Kaxiras)

HUANG, KO-FAN (KATIE) Superconducting Proximity Effect in Graphene (Kim)

JONES, NATHAN Toward Antihydrogen Spectroscopy (Gabrielse)

KABCENELL, AARON Hybrid Quantum Systems with Nitrogen Vacancy Centers and Mechanical Resonators (Lukin)

KATES-HARBECK, JULIAN Tackling complexity and nonlinearity in plasmas and networks using artificial intelligence and analytical methods (Desai)

KIVLICHAN, IAN Faster quantum simulation of quantum chemistry with tailored algorithms and Hamiltonian s (Aspuru-Guzik, Lukin)

KOSOWSKY, MICHAEL Topological Phenomena in Two-Dimensional Electron Systems (Yacoby)

KUATE DEFO, RODRICK Modeling Formation and Stability of Fluorescent Defects in Wide-Bandgap Semiconductors (Kaxiras)

LEE, JONG YEON Fractionalization, Emergent Gauge Dynamics, and Topology in Quantum Matter (Vishwanath)

MARABLE, KATHRYN Progress towards a sub-ppb measurement of the antiproton magnetic moment (Gabrielse)

MCNAMARA, HAROLD Synthetic Physiology: Manipulating and measuring biological pattern formation with light (Cohen)

MEMET, EDVIN Parking, puckering, and peeling in small soft systems (Mahadevan)

NGUYEN, CHRISTIAN Building quantum networks using diamond nanophotonics (Lukin)

OLSON, JOSEPH Plasticity and Firing Rate Dynamics in Leaky Integrate-and-Fire Models of Cortical Circuits (Samuel)

ORONA, LUCAS Advances In The Singlet-Triplet Spin Qubit (Yacoby)

RACLARIU, ANA-MARIA On Soft Symmetries in Gravity and Gauge Theory (Strominger)

RAVI, AAKASH Topics in precision astrophysical spectroscopy (Dvorkin)

SHI, JING Quantum Hall Effect-Mediated Josephson Junctions in Graphene (Kim)

SHI, ZHUJUN Manipulating light with multifunctional metasurfaces (Capasso, Manoharan)

STEINBERG, JULIA Universal Aspects of Quantum-Critical Dynamics In and Out of Equilibrium (Sachdev)

WILD, DOMINIK Algorithms and Platforms for Quantum Science and Technology (Lukin)

WU, HAI-YIN Biophysics of Mitotic Spindle Positioning in Caenorhabditis elegans Early Embryos (Needleman)

YU, LI Quantum Dynamics in Various Noise Scenarios (Heller)

BARKLEY, SOLOMON Applying Bayesian Inference to Measurements of Colloidal Dynamics (Manoharan)

BHASKAR, MIHIR Diamond Nanophotonic Quantum Networks (Lukin)

BINTU, BOGDAN Genome-scale imaging: from the subcellular structure of chromatin to the 3D organization of the peripheral olfactory system (Dulac, Zhuang, Nelson)

CHEN, MINGYUE On knotted surfaces in R 4 (Taubes, Vafa)

CHO, MINJAE Aspects of string field theory (Yin)

DIAZ RIVERO, ANA Statistically Exploring Cracks in the Lambda Cold Dark Matter Model (Dvorkin)

DWYER, BO NV centers as local probes of two-dimensional materials (Lukin)

GATES, DELILAH Observational Electromagnetic Signatures of Spinning Black Holes (Strominger)

HANNESDOTTIR, HOFIE Analytic Structure and Finiteness of Scattering Amplitudes (Schwartz)

HART, CONNOR Experimental Realization of Improved Magnetic Sensing and Imaging in Ensembles of Nitrogen Vacancy Centers in Diamond (Walsworth, Park)

HÉBERT, ANNE A Dipolar Erbium Quantum Gas Microscope (Greiner)

JI, GEOFFREY Microscopic control and dynamics of a Fermi-Hubbard system (Greiner)

JOE, ANDREW Interlayer Excitons in Atomically Thin van der Waals Semiconductor Heterostructures (Kim)

KEESLING, ALEXANDER Quantum Simulation and Quantum Information Processing with Programmable Rydberg Atom Arrays (Lukin)

KRAHN, AARON Erbium gas quantum microscope (Greiner)

LANGELLIER, NICHOLAS Analytical and Statistical Models for Laboratory and Astrophysical Precision Measurements (Walsworth, Dvorkin)

LEMMA, BEZIA Hierarchical phases of filamentary active matter (Dogic, Needleman)

LEVINE, HARRY Quantum Information Processing and Quantum Simulation with Programmable Rydberg Atom Arrays (Lukin)

LEVONIAN, DAVID A Quantum Network Node Based on the Silicon Vacancy Defect in Diamond (Lukin)

LIN, ALBERT Characterizing chemosensory responses of C. elegans with multi-neuronal imaging (Samuel)

LIU, SHANG Symmetry, Topology and Entanglement in Quantum Many-Body Systems (Vishwanath)

LIU, YU Bimolecular chemistry at sub-microkelvin temperatures (Ni)

MACHIELSE, BART Electronic and Nanophotonic Integration of a Quantum Network Node in Diamond (Lukin)

MELISSA, MATTHEW Divergence and diversity in rapidly evolving populations (Desai)

MILBOURNE, TIMOTHY All Features Great and Small: Distinquishing the effects of specific magnetically active features on radial-velocity exoplanet detections (Walsworth)

MITCHELL, JAMES Investigations into Resinicolous Fungi (Pfister, Samuel)

MONDRIK, NICHOLAS Calibration Hardware and Methodology for Large Photometric Surveys (Stubbs)

NANDE, ANJALIKA Mathematical modeling of drug resistance and the transmission of SARS-CoV-2 (Hill, Desai)

PLUMMER, ABIGAIL Reactions and instabilities in fluid layers and elastic sheets (Nelson)

RODRIGUEZ, VICTOR Perturbative and Non-Perturbative Aspects of Two-Dimensional String Theory (Yin)

ROSENFELD, EMMA Novel techniques for control and transduction of solid-state spin qubits (Lukin)

SAMUTPRAPHOOT, POLNOP A quantum network node based on a nanophotonic interface for atoms in optical tweezers (Lukin)

SCHITTKO, ROBERT A method of preparing individual excited eigenstates of small quantum many-body systems (Greiner)

SCHNEIDER, ELLIOT Stringy ER = EPR (Jafferis)

SONG, XUE-YANG Emergent and topological phenomena in many-body systems: Quantum spin liquids and beyond (Vishwanath)

ST. GERMAINE, TYLER Beam Systematics and Primordial Gravitational Wave Constraints from the BICEP/Keck Array CMB Experiments (Kovac)

TORRISI, STEVEN Materials Informatics for Catalyst Stability & Functionality (Kaxiras, Kozinsky)

TURNER, MATTHEW Quantum Diamond Microscopes for Biological Systems and Integrated Circuits (Walsworth)

URBACH, ELANA Nanoscale Magnetometry with Single Spin Qubits in Diamond (Lukin)

VENKAT, SIDDHARTH Modeling Excitons in Transition Metal Dichalcogenide Monolayers (Heller)

VENKATRAMANI, ADITYA Quantum nonlinear optics: controlling few-photon interactions (Lukin, Vuletić)

WANG, ANN A search for long-lived particles with large ionization energy loss in the ATLAS silicon pixel detector using 139 fb^{−1} of sqrt{s} = 13 TeV pp collisions (Franklin)

WILBURN, GREY An Inverse Statistical Physics Method for Biological Sequence Analysis (Eddy, Nelson)

XU, LINDA Searching for Dark Matter in the Early and Late Universe (Randall)

YI, KEXIN Neural Symbolic Machine Reasoning in the Physical World (Mahadevan, Finkbeiner)

YIN, JUN Improving our view of the Universe using Machine Learning (Finkbeiner)

YU, YICHAO Coherent Creation of Single Molecules from Single Atoms (Ni)

ZHANG, JESSIE Assembling an array of polar molecules with full quantum-state control (Ni)

ZHAO, FRANK The Physics of High-Temperature Superconducting Cuprates in van der Waals Heterostructures (Kim)

ZHOU, LEO Complexity, Algorithms, and Applications of Programmable Quantum Many-Body Systems (Lukin)

ANDERSEN, TROND Local electronic and optical phenomena in two-dimensional materials (Lukin)

ANDERSON, LAUREL Electrical and thermoelectric transport in mixed-dimensional graphitic mesoscopic systems (Kim)

AUGENBRAUN, BENJAMIN Methods for Direct Laser Cooling of Polyatomic Molecules (Doyle)

BALL, ADAM Aspects of Symmetry in Four Dimensions (Strominger)

BOETTCHER, CHARLOTTE New avenues in circuit QED: from quantum information to quantum sensing (Yacoby)

BORGNIA, DAN The Measure of a Phase (Vishwanath)

BROWNSBERGER, SASHA Modest Methods on the Edge of Cosmic Revolution: Foundational Work to Test Outstanding Peculiarities in the ΛCDM Cosmology (Randall, Stubbs)

BULLARD, BRENDON The first differential cross section measurements of tt̅ produced with a W boson in pp collisions (Morii)

CANATAR, ABDULKADIR Statistical Mechanics of Generalization in Kernel Regression and Wide Neural Networks (Pehlevan)

CESAROTTI, CARI Hints of a Hidden World (Reece)

CHALUPNIK, MICHELLE Quantum and photonic information processing with non-von Neumann architectures (Lončar)

CHEN, YU-TING A Platform for Cavity Quantum Electrodynamics with Rydberg Atom Arrays (Vuletić)

CONWAY, WILL Biophysics of Kinetochore Microtubules in Human Mitotic Spindles (Needleman)

DIETERLE, PAUL Diffusive waves, dynamic instability, and chromosome missegregation: dimensionality, discreteness, stochasticity (Amir)

DORDEVIC, TAMARA A nanophotonic quantum interface for atoms in optical tweezers (Lukin)

ENGELKE, REBECCA Structure and Properties of Moiré Interfaces in Two Dimensional Materials (Kim)

FAN, XING An Improved Measurement of the Electron Magnetic Moment (Gabrielse)

FOPPIANI, NICOLÒ Testing explanations of short baseline neutrino anomalies (Guenette)

GHEORGHE, ANDREI Methods for inferring dynamical systems from biological data with applications to HIV latency and genetic drivers of aging (Hill)

HAEFNER, JONATHAN Improving Kr-83m Calibration and Energy Resolution in NEXT Neutrinoless Double Beta Decay Detectors (Guenette)

KOLCHMEYER, DAVID Toy Models of Quantum Gravity (Jafferis)

MCNAMARA, JAKE The Kinematics of Quantum Gravity (Vafa)

MENKE, TIM Classical and quantum optimization of quantum processors (Aspuru-Guzik, Oliver)

MICHAEL, MARIOS Parametric resonances in Floquet materials (Demler)

OBIED, GEORGES String Theory and its Applications in Cosmology and Particle Physics (Dvorkin, Vafa)

PARIKH, ADITYA Theoretical & Phenomenological Explorations of the Dark Sector (Reece)

PATTI, TAYLOR Quantum Systems for Computation and Vice Versa (Yelin)

PIERCE, ANDREW Local thermodynamic signatures of interaction-driven topological states in graphene (Yacoby)

PIRIE, HARRIS Interacting quantum materials and their acoustic analogs (Hoffman)

REZAI, KRISTINE Probing dynamics of a two-dimensional dipolar spin ensemble (Sushkov)

SAMAJDAR, RHINE Topological and symmetry-breaking phases of strongly correlated systems: From quantum materials to ultracold atoms (Sachdev)

SCURI, GIOVANNI Quantum Optics with Excitons in Atomically Thin Semiconductors (Park)

SHEN, YINAN Mechanics of Interpenetrating Biopolymer Networks in the Cytoskeleton and Biomolecular Condensates (Weitz)

SON, HYUNGMOK Collisional Cooling and Magnetic Control of Reactions in Ultracold Spin-polarized NaLi+Na Mixture (Ketterle)

SUSHKO, ANDREY Structural imaging and electro-optical control of two dimensional semiconductors (Lukin)

TANTIVASADAKARN, NATHANAN Exploring exact dualities in lattice models of topological phases of matter (Vishwanath)

VANDERMAUSE, JONATHAN Active Learning of Bayesian Force Fields (Kozinsky)

ZHOU, HENGYUN Quantum Many-Body Physics and Quantum Metrology with Floquet-Engineered Interacting Spin Systems (Lukin)

ZHU, ZOE Multiscale Models for Incommensurate Layered Two-dimensional Materials (Kaxiras)

AGMON, NATHAN D-instantons and String Field Theory (Yin)

ANG, DANIEL Progress towards an improved measurement of the electric dipole moment of the electron (Gabrielse)

BADEA, ANTHONY Search for massive particles producing all hadronic final states in proton-proton collisions at the LHC with the ATLAS detector (Huth)

BEDROYA, ALEK The Swampland: from macro to micro (Vafa)

BURCHESKY, SEAN Engineered Collisions, Molecular Qubits, and Laser Cooling of Asymmetric Top Molecules (Doyle)

CONG, IRIS Quantum Machine Learning, Error Correction, and Topological Phases of Matter (Lukin)

DAVENPORT, IAN Optimal control and reinforcement learning in simple physical systems (Mahadevan)

DEPORZIO, NICK Dark Begets Light: Exploring Physics Beyond the Standard Model with Cosmology (Dvorkin, Randall)

FAN, RUIHUA Quantum entanglement and dynamics in low-dimensional quantum many-body systems (Vishwanath)

FORTMAN, ANNE Searching for heavy, charged, long-lived particles via ionization energy loss and time-of-flight in the ATLAS detector using 140.1 fb-1 of √s = 13 TeV proton-proton collision data (Franklin)

GABAI, BARAK From the S-matrix to the lattice: bootstrapping QFTs (Yin)

GARCIA, ROY Resource theory of quantum scrambling (Jaffe)

GELLY, RYAN Engineering the excitonic and photonic properties of atomically thin semiconductors (Park)

GUO, HAOYU Novel Transport Phenomena in Quantum Matter (Sachdev)

HIMWICH, MINA Aspects of Symmetry in Classical and Quantum Gravity (Strominger)

HU, YAOWEN Coupled-resonators on thin-film lithium niobate: Photonic multi-level system with electro-optic transition (Lončar)

KHABIBOULLINE, EMIL Quantum Communication and Thermalization, From Theory to Practice (Lukin)

KIM, SOOSHIN Quantum Gas Microscopy of Strongly Correlated Bosons (Greiner)

KING, ELLA Frankenstein's Tiniest Monsters: Inverse Design of Bio-inspired Function in Self-Assembling Materials (Brenner)

LIN, ROBERT Finding and building algebraic structures in finite-dimensional Hilbert spaces for quantum computation and quantum information (Jaffe)

LIU, YU Spin-polarized imaging of interacting fermions in the magnetic phases of Weyl semimetal CeBi (Hoffman)

LU, QIANSHU Cosmic Laboratory of Particle Physics (Reece)

MEISENHELDER, COLE Advances in the Measurement of the Electron Electric Dipole Moment (Gabrielse)

MENDOZA, DOUGLAS Optimization Algorithms for Quantum and Digital Annealers (Aspuru-Guzik)

MILLER, OLIVIA Measuring and Assessing Introductory Students' Physics Problem-Solving Ability (Mazur)

MORRISON, THARON Towards antihydrogen spectroscopy and CW Lyman-alpha via four-wave mixing in mercury (Gabrielse)

NARAYANAN, SRUTHI Soft Travels to the Celestial Sphere (Strominger)

NIU, LAUREN Patterns and Singularities in Elastic Shells (Mahadevan)

OCOLA, PALOMA A nanophotonic device as a quantum network node for atoms in optical tweezers (Lukin)

RABANAL BOLAÑOS, GABRIEL Measuring the production of three massive vector bosons in the four-lepton channel in pp collisions at √s= 13 TeV with the ATLAS experiment at the LHC (Franklin)

SENGUL, CAGAN Studying Dark Matter at Sub-Galactic Scales with Strong Gravitational Lensing (Dvorkin)

SHU, CHI Quantum enhanced metrology in the optical lattice clock (Vuletić)

SPITZIG, ALYSON Using non-contact AFM to study the local doping and damping through the transition in an ultrathin VO2 film (Hoffman)

TARAZI, HOURI UV Completeness: From Quantum Field Theory to Quantum Gravity (Vafa)

WILLIAMS, LANELL What goes right and wrong during virus self assembly? (Manoharan)

YODH, JEREMY Flow of colloidal and living suspensions in confined geometries (Mahadevan)

ZHANG, GRACE Fluctuations, disorder, and geometry in soft matter (Nelson)

AGIA, NICHOLAS On Low-Dimensional Black Holes in String Theory (Jafferis)

BAO, YICHENG Ultracold molecules in an optical tweezer array: From dipolar interaction to ground state cooling (Doyle)

BLOCK, MAXWELL Dynamics of Entanglement with Applications to Quantum Metrology (Yao)

CONTRERAS, TAYLOR Toward Tonne-Scale NEXT Detectors: SiPM Energy-Tracking Planes and Metalenses for Light Collection (Guenette)

DOYLE, SPENCER From Elements to Electronics: Designing Thin Film Perovskite Oxides for Technological Applications (Mundy)

EBADI, SEPEHR Quantum simulation and computation with two-dimensional arrays of neutral atoms (Greiner)

FRASER, KATIE Probing Undiscovered Particles with Theory and Data-Driven Tools (Reece)

GHOSH, SOUMYA Nonlinear Frequency Generation in Periodically Poled Thin Film Lithium Niobate (Lončar)

HAO, ZEYU Emergent Quantum Phases of Electrons in Multilayer Graphene Heterostructures (Kim)

HARTIG, KARA Wintertime Cold Extremes: Mechanisms and Teleconnections with the Stratosphere (Tziperman)

LEE, SEUNG HWAN Spin Waves as New Probes for Graphene Quantum Hall Systems (Yacoby)

LEEMBRUGGEN, MADELYN Buckling, wrinkling, and crumpling of simulated thin sheets (Rycroft)

LI, CHENYUAN Quantum Criticality and Superconductivity in Systems Without Quasiparticles (Sachdev)

MILLER, NOAH Gravity and Lw_{1 + infinity} symmetry (Strominger)

OZTURK, SUKRU FURKAN A New Spin on the Origin of Biological Homochirality (Sasselov)

PAN, GRACE Atomic-scale design and synthesis of unconventional superconductors (Mundy)

POLLACK, DANIEL Synthesis, characterization, and chemical stability analysis of quinones for aqueous organic redox flow batteries (Gordon)

SAYDJARI, ANDREW Statistical Models of the Spatial, Kinematic, and Chemical Complexity of Dust (Finkbeiner)

SHACKLETON, HENRY Fractionalization and disorder in strongly correlated systems (Sachdev)

SKRZYPEK, BARBARA The Case of the Missing Neutrino: Astrophysical Messengers of Planck-Scale Physics (Argüelles-Delgado)

TSANG, ARTHUR Strong Lensing, Dark Perturbers, and Machine Learning (Dvorkin)

XU, MUQING Quantum phases in Fermi Hubbard systems with tunable frustration (Greiner)

YE, BINGTIAN Out-of-equilibrium many-body dynamics in Atomic, Molecular and Optical systems (Yao)

ZAVATONE-VETH, JACOB Statistical mechanics of Bayesian inference and learning in neural networks (Pehlevan)

GRADUATE STUDIES
Admissions & Financial Aid
Admissions FAQs
Advising Team
Advising Portal (Graduate)
Course Requirements
Other PhD Tracks
Griffin Graduate School of Arts and Sciences
GSAS Student Council
PhD Thesis Help
Tax Information

Department of English

Recent PhD Dissertations

Terekhov, Jessica (September 2022) -- "On Wit in Relation to Self-Division"

Selinger, Liora (September 2022) -- "Romanticism, Childhood, and the Poetics of Explanation"

Lockhart, Isabel (September 2022) -- "Storytelling and the Subsurface: Indigenous Fiction, Extraction, and the Energetic Present"

Ashe, Nathan (April 2022) – "Narrative Energy: Physics and the Scientific Real in Victorian Literature”

Bartley, Scott H. (April 2022) – “Watch it closely: The Poetry and Poetics of Aesthetic Focus in The New Criticism and Middle Generation”

Mctar, Ali (November 2021) – “Fallen Father: John Milton, Antinomianism, and the Case Against Adam”

Chow, Janet (September 2021) – “Securing the Crisis: Race and the Poetics of Risk”

Thorpe, Katherine (September 2021) – “Protean Figures: Personified Abstractions from Milton’s Allegory to Wordsworth’s Psychology of the Poet”

Minnen, Jennifer (September 2021) – “The Second Science: Feminist Natural Inquiry in Nineteenth-Century British Literature”

Starkowski, Kristen (September 2021) – “Doorstep Moments: Close Encounters with Minor Characters in the Victorian Novel”

Rickard, Matthew (September 2021) – “Probability: A Literary History, 1479-1700”

Crandell, Catie (September 2021) – “Inkblot Mirrors: On the Metareferential Mode and 19th Century British Literature”

Clayton, J.Thomas (September 2021) – “The Reformation of Indifference: Adiaphora, Toleration, and English Literature in the Seventeenth Century”

Goldberg, Reuven L. (May 2021) – “I Changed My Sex! Pedagogy and the Trans Narrative”

Soong, Jennifer (May 2021) – “Poetic Forgetting”

Edmonds, Brittney M. (April 2021) – “Who’s Laughing Now? Black Affective Play and Formalist Innovation in Twenty-First Century black Literary Satire”

Azariah-Kribbs, Colin (April 2021) – “Mere Curiosity: Knowledge, Desire, and Peril in the British and Irish Gothic Novel, 1796-1820”

Pope, Stephanie (January 2021) – “Rethinking Renaissance Symbolism: Material Culture, Visual Signs, and Failure in Early Modern Literature, 1587-1644”

Kumar, Matthew (September 2020) – “The Poetics of Space and Sensation in Scotland and Kenya”

Bain, Kimberly (September 2020) – “On Black Breath”

Eisenberg, Mollie (September 2020) – “The Case of the Self-Conscious Detective Novel: Modernism, Metafiction, and the Terms of Literary Value”

Hori, Julia M. (September 2020) – “Restoring Empire: British Imperial Nostalgia, Colonial Space, and Violence since WWII”

Reade, Orlando (June 2020) – “Being a Lover of the World: Lyric Poetry and Political Disaffection after the English Civil War”

Mahoney, Cate (June 2020) – “Go on Your Nerve: Confidence in American Poetry, 1860-1960”

Ritger, Matthew (April 2020) – “Objects of Correction: Literature and the Birth of Modern Punishment”

VanSant, Cameron (April 2020) – “Novel Subjects: Nineteenth-Century Fiction and the Transformation of British Subjecthood”

Lennington, David (November 2019) – “Anglo-Saxon and Arabic Identity in the Early Middle Ages”

Marraccini, Miranda (September 2019) – “Feminist Types: Reading the Victoria Press”

Harlow, Lucy (June 2019) – “The Discomposed Mind”

Williamson, Andrew (June 2019) – “Nothing to Say: Silence in Modernist American Poetry”

Adair, Carl (April 2019) – “Faithful Readings: Religion, Hermeneutics, and the Habits of Criticism”

Rogers, Hope (April 2019) – “Good Girls: Female Agency and Convention in the Nineteenth-Century British Novel”

Green, Elspeth (January 2019) – “Popular Science and Modernist Poetry”

Braun, Daniel (January 2019) – Kinds of Wrong: The Liberalization of Modern Poetry 1910-1960”

Rosen, Rebecca (November 2018) – “Making the body Speak: Anatomy, Autopsy and Testimony in Early America, 1639-1790”

Blank, Daniel (November 2018) – Shakespeare and the Spectacle of University Drama”

Case, Sarah (September 2018) – Increase of Issue: Poetry and Succession in Elizabethan England”

Kucik, Emanuela (June 2018) – “Black Genocides and the Visibility Paradox in Post-Holocaust African American and African Literature”

Quinn, Megan (June 2018) – “The Sensation of Language: Jane Austen, William Wordsworth, Mary Shelley”

McCarthy, Jesse D. (June 2018) – “The Blue Period: Black Writing in the Early Cold War, 1945-1965

Johnson, Colette E. (June 2018) – “The Foibles of Play: Three Case Studies on Play in the Interwar Years”

Gingrich, Brian P. (June 2018) – “The Pace of Modern Fiction: A History of Narrative Movement in Modernity”

Marcus, Sara R. (June 2018) – “Political Disappointment: A Partial History of a Feeling”

Parry, Rosalind A. (April 2018) – “Remaking Nineteenth-Century Novels for the Twentieth Century”

Gibbons, Zoe (January 2018) – “From Time to Time: Narratives of Temporality in Early Modern England, 1610-1670”

Padilla, Javier (September 2017) – “Modernist Poetry and the Poetics of Temporality: Between Modernity and Coloniality”

Alvarado, Carolina (June 2017) – "Pouring Eastward: Editing American Regionalism, 1890-1940"

Gunaratne, Anjuli (May 2017) – "Tragic Resistance: Decolonization and Disappearance in Postcolonial Literature"

Glover, Eric (May 2017) – "By and About: An Antiracist History of the Musicals and the Antimusicals of Langston Hughes and Zora Neale Hurston"

Tuckman, Melissa (April 2017) – "Unnatural Feelings in Nineteenth-Century Poetry"

Eggan, Taylor (April 2017) – "The Ecological Uncanny: Estranging Literary Landscapes in Twentieth-Century Narrative Fiction"

Calver, Harriet (March 2017) – "Modern Fiction and Its Phantoms"

Gaubinger, Rachel (December 2016) – "Between Siblings: Form and Family in the Modern Novel"

Swartz, Kelly (December 2016) – "Maxims and the Mind: Sententiousness from Seventeenth-Century Science to the Eighteenth-Century Novel"

Robles, Francisco (June 2016) – “Migrant Modalities: Radical Democracy and Intersectional Praxis in American Literatures, 1923-1976”

Johnson, Daniel (June 2016) – “Visible Plots, Invisible Realms”

Bennett, Joshua (June 2016) – “Being Property Once Myself: In Pursuit of the Animal in 20th Century African American Literature”

Scranton, Roy (January 2016) – “The Trauma Hero and the Lost War: World War II, American Literature, and the Politics of Trauma, 1945-1975

Jacob, Priyanka (November 2015) – “Things That Linger: Secrets, Containers and Hoards in the Victorian Novel”

Evans, William (November 2015) – “The Fiction of Law in Shakespeare and Spenser”

Vasiliauskas, Emily (November 2015) – “Dead Letters: The Afterlife Before Religion”

Walker, Daniel (June 2015) – “Sociable Uncertainties: Literature and the Ethics of Indeterminacy in Eighteenth-Century Britain”

Reilly, Ariana (June 2015) – “Leave-Takings: Anti-Self-Consciousness and the Escapist Ends of the Victorian Marriage Plot”

Lerner, Ross (June 2015) – "Framing Fanaticism: Religion, Violence, and the Reformation Literature of Self-Annihilation”

Harrison, Matthew (June 2015) – "Tear Him for His Bad Verses: Poetic Value and Literary History in Early Modern England”

Krumholtz, Matthew (June 2015) – “Talking Points: American Dialogue in the Twentieth Century”

Dauber, Maayan (March 2015) – "The Pathos of Modernism: Henry James, Virginia Woolf, and Gertrude Stein (with a coda on J.M. Coetzee)”

Hostetter, Lyra (March 2015) – “Novel Errantry: An Annotated Edition of Horatio, of Holstein (1800)”

Sanford, Beatrice (January 2015) – “Love’s Perception: Nineteenth-Century Aesthetics of Attachment”

Chong, Kenneth (January 2015) – “Potential Theologies: Scholasticism and Middle English Literature”

Worsley, Amelia (September 2014) – “The Poetry of Loneliness from Romance to Romanticism”

Hurtado, Jules (June 2014) – “The Pornographer at the Crossroads: Sex, Realism and Experiment in the Contemporary English Novel”

Rutherford, James (June 2014) – "Irrational Actors: Literature and Logic in Early Modern England”

Wilde, Lisa (June 2014) – “English Numeracy and the Writing of New Worlds, 1543-1622”

Hyde, Emily (November 2013) – “A Way of Seeing: Modernism, Illustration, and Postcolonial Literature”

Ortiz, Ivan (September 2013) – “Romanticism and the Aesthetics of Modern Transport”

Aronowicz, Yaron (September 2013) – “Fascinated Moderns: The Attentions of Modern Fiction”

Wythoff, Grant (September 2013) – “Gadgetry: New Media and the Fictional Imagination”

Ramachandran, Anitha (September 2013) – "Recovering Global Women’s Travel Writings from the Modern Period: An Inquiry Into Genre and Narrative Agency”

Reuland, John (April 2013) – “The Self Unenclosed: A New Literary History of Pragmatism, 1890-1940”

Wasserman, Sarah (January 2013) – “Material Losses: Urban Ephemera in Contemporary American Literature and Culture”

Kastner, Tal (November 2012) – "The Boilerplate of Everything and the Ideal of Agreement in American Law and Literature"

Labella, John (October 2012) – "Lyric Hemisphere: Latin America in United States Poetry, 1927-1981"

Kindley, Evan (September 2012) – "Critics and Connoisseurs: Poet-Critics and the Administration of Modernism"

Smith, Ellen (September 2012) – "Writing Native: The Aboriginal in Australian Cultural Nationalism 1927-1945"

Werlin, Julianne (September 2012) – "The Impossible Probable: Modeling Utopia in Early Modern England"

Posmentier, Sonya (May 2012) – "Cultivation and Catastrophe: Forms of Nature in Twentieth-Century Poetry of the Black Diaspora"

Alfano, Veronica (September 2011) – “The Lyric in Victorian Memory”

Foltz, Jonathan (September 2011) – “Modernism and the Narrative Cultures of Film”

Coghlan, J. Michelle (September 2011) – “Revolution’s Afterlife; The Paris Commune in American Cultural Memory, 1871-1933”

Christoff, Alicia (September 2011) – “Novel Feeling”

Shin, Jacqueline (August 2011) – “Picturing Repose: Between the Acts of British Modernism”

Ebrahim, Parween (August 2011) – “Outcasts and Inheritors: The Ishmael Ethos in American Culture, 1776-1917”

Reckson, Lindsay (August 2011) – “Realist Ecstasy: Enthusiasm in American Literature 1886 - 1938"

Londe, Gregory (June 2011) – “Enduring Modernism: Forms of Surviving Location in the 20th Century Long Poem”

Brown, Adrienne (June 2011) – “Reading Between the Skylines: The Skyscraper in American Modernism”

Russell, David (June 2011) – “A Literary History of Tact: Sociability, Aesthetic Liberalism and the Essay Form in Nineteenth-Century Britain”

Hostetter, Aaron (December 2010) – "The Politics of Eating and Cooking in Medieval English Romance"

Moshenska, Joseph (November 2010) – " 'Feeling Pleasures': The Sense of Touch in Renaissance England"

Walker, Casey (September 2010) – "The City Inside: Intimacy and Urbanity in Henry James, Marcel Proust and Virginia Woolf"

Rackin, Ethel (August 2010) – "Ornamentation and Essence in Modernist Poetry"

Noble, Mary (August 2010) – "Primitive Marriage: Anthropology and Nineteenth-Century Fiction"

Fox, Renee (August 2010) – "Necromantic Victorians: Reanimation, History and the Politics of Literary Innovation, 1868-1903"

Hopper, Briallen (June 2010) – “Feeling Right in American Reform Culture”

Lee, Wendy (June 2010) -- "Failures of Feeling in the British Novel from Richardson to Eliot"

Moyer, James (March 2010) – "The Passion of Abolitionism: How Slave Martyrdom Obscures Slave Labor”

Forbes, Erin (September 2009) – “Genius of Deep Crime: Literature, Enslavement and the American Criminal”

Crawforth, Hannah (September 2009) – “The Politics and Poetics of Etymology in Early Modern Literature”

Elliott, Danielle (April 2009) – "Sea of Bones: The Middle Passage in Contemporary Poetry of the Black Atlantic”

Yu, Wesley (April 2009) – “Romance Logic: The Argument of Vernacular Verse in the Scholastic Middle Ages”

Cervantes, Gabriel (April 2009) – "Genres of Correction: Anglophone Literature and the Colonial Turn in Penal Law 1722-1804”

Rosinberg, Erwin (January 2009) – "A Further Conjunction: The Couple and Its Worlds in Modern British Fiction”

Walsh, Keri (January 2009) – "Antigone in Modernism: Classicism, Feminism, and Theatres of Protest”

Heald, Abigail (January 2009) – “Tears for Dido: A Renaissance Poetics of Feeling”

Bellin, Roger (January 2009) – "Argument: The American Transcendentalists and Disputatious Reason”

Ellis, Nadia (November 2008) – "Colonial Affections: Formulations of Intimacy Between England and the Caribbean, 1930-1963”

Baskin, Jason (November 2008) – “Embodying Experience: Romanticism and Social Life in the Twentieth Century”

Barrett, Jennifer-Kate (September 2008) – “ ‘So Written to Aftertimes’: Renaissance England’s Poetics of Futurity”

Moss, Daniel (September 2008) – “Renaissance Ovids: The Metamorphosis of Allusion in Late Elizabethan England”

Rainof, Rebecca (September 2008) – “Purgatory and Fictions of Maturity: From Newman to Woolf”

Darznik, Jasmin (November 2007) – “Writing Outside the Veil: Literature by Women of the Iranian Diaspora”

Bugg, John (September 2007) – “Gagging Acts: The Trials of British Romanticism”

Matson, John (September 2007) – “Marking Twain: Mechanized Composition and Medial Subjectivity in the Twain Era”

Neel, Alexandra (September 2007) – “The Writing of Ice: The Literature and Photography of Polar Regions”

Smith-Browne, Stephanie (September 2007) – “Gothic and the Pacific Voyage: Patriotism, Romance and Savagery in South Seas Travels and the Utopia of the Terra Australis”

Bystrom, Kerry (June 2007) – “Orphans and Origins: Family, Memory, and Nation in Argentina and South Africa”

Ards, Angela (June 2007) – “Affirmative Acts: Political Piety in African American Women’s Contemporary Autobiography”

Cragwall, Jasper (June 2007) – “Lake Methodism”

Ball, David (June 2007) – “False Starts: The Rhetoric of Failure and the Making of American Modernism, 1850-1950”

Ramdass, Harold (June 2007) – “Miswriting Tragedy: Genealogy, History and Orthography in the Canterbury Tales, Fragment I”

Lilley, James (June 2007) – “Common Things: Transatlantic Romance and the Aesthetics of Belonging, 1764-1840”

Noble, Mary (March 2007) – “Primitive Marriage: Anthropology and Nineteenth-Century Fiction”

Passannante, Gerard (January 2007) – “The Lucretian Renaissance: Ancient Poetry and Humanism in an Age of Science”

Tessone, Natasha (November 2006) – “The Fiction of Inheritance: Familial, Cultural, and National Legacies in the Irish and Scottish Novel”

Horrocks, Ingrid (September 2006) – “Reluctant Wanderers, Mobile Feelings: Moving Figures in Eighteenth-Century Literature”

Bender, Abby (June 2006) – “Out of Egypt and into bondage: Exodus in the Irish National Imagination”

Johnson, Hannah (June 2006) – “The Medieval Limit: Historiography, Ethics, Culture”

Horowitz, Evan (January 2006) – “The Writing of Modern Life”

White, Gillian (November 2005) – “ ‘We Do Not Say Ourselves Like That in Poems’: The Poetics of Contingency in Wallace Stevens and Elizabeth Bishop

Baudot, Laura (September 2005) – “Looking at Nothing: Literary Vacuity in the Long Eighteenth Century”

Hicks, Kevin (September 2005) – “Acts of Recovery: American Antebellum Fictions”

Stern, Kimberly (September 2005) – “The Victorian Sibyl: Women Reviewers and the Reinvention of Critical Tradition”

Nardi, Steven (May 2005) – “Automatic Aesthetics: Race, Technology, and Poetics in the Harlem Renaissance and American New Poetry”

Sayeau, Michael (May 2005) – “Everyday: Literature, Modernity, and Time”

Cooper, Lawrence (April 2005) – “Gothic Realities: The Emergence of Cultural Forms Through Representations of the Unreal”

Betjemann, Peter (November 2004) – “Talking Shop: Craft and Design in Hawthorne, James, and Wharton”

Forbes, Aileen (November 2004) – “Passion Play: Theaters of Romantic Emotion”

Keeley, Howard (November 2004) – “Beyond Big House and Cabin: Dwelling Politically in Modern Irish Literature”

Machlan, Elizabeth (November 2004) – “Panic Rooms: Architecture and Anxiety in New York Stories from 1900 to 9/11”

McDowell, Demetrius (November 2004) – “Hawthorne, James, and the Pressures of the Literary Marketplace”

Waldron, Jennifer (November 2004) – “Eloquence of the Body: Aesthetics, Theology, and English Renaissance Theater”

UNT Theses and Dissertations

Theses and dissertations represent a wealth of scholarly and artistic content created by masters and doctoral students in the degree-seeking process. Some ETDs in this collection are restricted to use by the UNT community .

Guided Search
Advanced Search
Proximity Search
Searching Help
Apply your Search Terms to:
The Full Text of the Item
Metadata (Catalog Record)

At a Glance

Basic statistics about this collection.

Latest Additions RSS Feed

"Cripping" the Curriculum through the Arts: A Non-Guide for Educators on Valuing Student Differences and Increasing Access to Learning

Cite This Collection

Here is our suggested citation. Consult an appropriate style guide for conformance to specific guidelines.

UNT Theses and Dissertations in UNT Digital Library. University of North Texas Libraries. https://digital.library.unt.edu/explore/collections/UNTETD/ accessed July 31, 2024. Copy Citation

Explore Holdings

Start browsing through the holdings of this collection in one of the following ways:

Resource Types

Decades a-z count, countries (expand list) a-z count, states (expand list) a-z count, counties (expand list) a-z count.

Share on twitter
Share on facebook

10 tips for writing a PhD thesis

Ingrid curl shares simple rules for keeping your work clear and jargon-free.

Share on linkedin
Share on mail

Writing up a PhD can often take place in a frenzy of activity in the last few months of your degree study, after years of hard work. But there are some steps that you can take to increase your chances of success.

Do not be daunted by the task of “writing up”. Work on the text as your PhD takes shape, remember that all writers need editing, and help yourself by using these basic tips to make life easier. Read what great writers say about how to write before you start, and take their advice to heart. There is no dark art to clear, concise work; it is mostly a result of editing, and editing again. Above all, keep Elmore Leonard’s advice in mind: “If it reads like writing…rewrite it.”
Plan the structure of your thesis carefully with your supervisor. Create rough drafts as you go so that you can refine them as you become more focused on the write-up. Much of writing comprises rewriting so be prepared to rework each chapter many times. Even Ernest Hemingway said: “The first draft of everything is shit.”
Academic writing does not have to be dry. Inject some flair into your work. Read advice on writing and remember George Orwell’s words in Why I Write : “Never use the passive where you can use the active”; and Mark Twain’s on adjectives: “When you catch an adjective, kill it.” If you prefer, Stephen King said: “The road to hell is paved with adverbs.”
Do not write up in chronological order. Work on each chapter while it is fresh in your mind or pertinent to what you are doing at that moment, but come back to it all later and work it up into a consistent, coherent piece, restructuring sections where necessary.
Think carefully about your writing. Write your first draft, leave it and then come back to it with a critical eye. Look objectively at the writing and read it closely for style and sense. Look out for common errors such as dangling modifiers, subject-verb disagreement and inconsistency. If you are too involved with the text to be able to take a step back and do this, then ask a friend or colleague to read it with a critical eye. Remember Hemingway’s advice: “Prose is architecture, not interior decoration.” Clarity is key.
Most universities use a preferred style of references. Make sure you know what this is and stick to it. One of the most common errors in academic writing is to cite papers in the text that do not then appear in the bibliography. All references in your thesis need to be cross-checked with the bibliography before submission. Using a database during your research can save a great deal of time in the writing-up process. Helpful software includes EndNote or Paperpile. Managing your bibliography from day one may seem obsessive but it will save you a great deal of time and stress by the end of the PhD process.
Use a house style. Professional publications such as Times Higher Education use a house style guide to ensure consistency in spelling. For example, do not use both -ise spellings and -ize spellings, stick to British spelling and be consistent when referring to organisations or bodies. Because dictionaries vary in their use of hyphenation, use one dictionary and stick to it throughout the writing process. If you consult the New Oxford Dictionary for Writers and Editors , you will note the extraordinary number of words with alternative spellings. It can also be a very useful guide to preferred spellings, use of italicisation and foreign phrases.
Take care when quoting from other sources. Ensure you note whether the italic emphasis is in the original and take careful notes when you are collecting quotes for your thesis. Transcribe them accurately to save work later and keep original spellings (even if they differ from your chosen style) to ensure fidelity to your source.
Think about plagiarism. If you are quoting from works, quote from them accurately and paraphrase where necessary for your argument. This is where careful note-taking and use of references is invaluable and will help you to avoid even inadvertently plagiarising another work.
Remember that your thesis is your chance to present your work in the best possible light. Consider your opening paragraphs, entice your reader with your writing and above all be clear about your hypothesis and your conclusion. Append material where it adds value but not where it merely bulks out your work. Consider your reader at all times. This is your chance to showcase your work.

If you stick to these simple rules, your writing will be clear and jargon-free. Above all, take to heart Orwell’s advice: “Never use a foreign phrase, a scientific word, or a jargon word if you can think of an everyday English equivalent.”

Ingrid Curl is associate editor of Times Higher Education , and a former PhD student.

Register to continue

Why register?

Registration is free and only takes a moment
Once registered, you can read 3 articles a month
Sign up for our newsletter

Or subscribe for unlimited access to:

Unlimited access to news, views, insights & reviews
Digital editions
Digital access to THE’s university and college rankings analysis

Already registered or a current subscriber? Login

phd good idea finish line final few days

How to submit a PhD thesis

The final few months of a PhD can often be the hardest, so here are a few tips from a doctoral candidate who recently submitted her thesis

Firing of Chinese professor renews sexual misconduct concerns

While some believe Chinese universities are getting better at dealing with cases of sexual harassment, recent incident suggests students may have to turn to social media to be taken seriously

Varna, Bulgaria - September, 06, 2020 street drummer playing in the park with improvised means

Embed impact in PhD training from day one, says UCL doctoral head

Head of UK’s biggest PhD school says promoting impact in doctoral studies would make students more employable and research more visible

An evaluation screen with happy, neutral and sad faces

Most PhD students with hidden disabilities ‘unhappy with support’

Postgraduate researchers with non-visible disabilties often struggle to access proper employee-type support, says University and College Union report

Featured jobs

Reference management. Clean and simple.

The top list of academic search engines

1. Google Scholar

4. science.gov, 5. semantic scholar, 6. baidu scholar, get the most out of academic search engines, frequently asked questions about academic search engines, related articles.

Academic search engines have become the number one resource to turn to in order to find research papers and other scholarly sources. While classic academic databases like Web of Science and Scopus are locked behind paywalls, Google Scholar and others can be accessed free of charge. In order to help you get your research done fast, we have compiled the top list of free academic search engines.

Google Scholar is the clear number one when it comes to academic search engines. It's the power of Google searches applied to research papers and patents. It not only lets you find research papers for all academic disciplines for free but also often provides links to full-text PDF files.

Coverage: approx. 200 million articles
Abstracts: only a snippet of the abstract is available
Related articles: ✔
References: ✔
Cited by: ✔
Links to full text: ✔
Export formats: APA, MLA, Chicago, Harvard, Vancouver, RIS, BibTeX

BASE is hosted at Bielefeld University in Germany. That is also where its name stems from (Bielefeld Academic Search Engine).

Coverage: approx. 136 million articles (contains duplicates)
Abstracts: ✔
Related articles: ✘
References: ✘
Cited by: ✘
Export formats: RIS, BibTeX

Search interface of Bielefeld Academic Search Engine aka BASE

CORE is an academic search engine dedicated to open-access research papers. For each search result, a link to the full-text PDF or full-text web page is provided.

Coverage: approx. 136 million articles
Links to full text: ✔ (all articles in CORE are open access)
Export formats: BibTeX

Search interface of the CORE academic search engine

Science.gov is a fantastic resource as it bundles and offers free access to search results from more than 15 U.S. federal agencies. There is no need anymore to query all those resources separately!

Coverage: approx. 200 million articles and reports
Links to full text: ✔ (available for some databases)
Export formats: APA, MLA, RIS, BibTeX (available for some databases)

Semantic Scholar is the new kid on the block. Its mission is to provide more relevant and impactful search results using AI-powered algorithms that find hidden connections and links between research topics.

Coverage: approx. 40 million articles
Export formats: APA, MLA, Chicago, BibTeX

Although Baidu Scholar's interface is in Chinese, its index contains research papers in English as well as Chinese.

Coverage: no detailed statistics available, approx. 100 million articles
Abstracts: only snippets of the abstract are available
Export formats: APA, MLA, RIS, BibTeX

RefSeek searches more than one billion documents from academic and organizational websites. Its clean interface makes it especially easy to use for students and new researchers.

Coverage: no detailed statistics available, approx. 1 billion documents
Abstracts: only snippets of the article are available
Export formats: not available

Consider using a reference manager like Paperpile to save, organize, and cite your references. Paperpile integrates with Google Scholar and many popular databases, so you can save references and PDFs directly to your library using the Paperpile buttons:

Google Scholar is an academic search engine, and it is the clear number one when it comes to academic search engines. It's the power of Google searches applied to research papers and patents. It not only let's you find research papers for all academic disciplines for free, but also often provides links to full text PDF file.

Semantic Scholar is a free, AI-powered research tool for scientific literature developed at the Allen Institute for AI. Sematic Scholar was publicly released in 2015 and uses advances in natural language processing to provide summaries for scholarly papers.

BASE , as its name suggest is an academic search engine. It is hosted at Bielefeld University in Germany and that's where it name stems from (Bielefeld Academic Search Engine).

CORE is an academic search engine dedicated to open access research papers. For each search result a link to the full text PDF or full text web page is provided.

Science.gov is a fantastic resource as it bundles and offers free access to search results from more than 15 U.S. federal agencies. There is no need any more to query all those resources separately!

Department of Physics

PhD. Theses

Fpo pictures 2024.

Nicholas Quirk - FPO; Committee: Professors Phuan Ong, Biao Lian, and Lyman Page

Leander Thiele - FPO; Committee: Professors David Spergel, Jo Dunkley, and Lyman Page

Jingyao Wang- FPO; Committee: Professors Michael Romalis, Waseem Bakr, and (not pictured) Mariangela Lisanti

Remy Delva- FPO; Committee: Professors Jason Petta, David Huse, and Chris Tully

Saumya Shivam - FPO; Committee: Professors Shivaji Sondhi, Biao Lian and Frans Pretorius

Cheng-Li Chiu - FPO; Committee: Professors Ali Yazdani, Lawrence Cheuk, Sanfeng Wu, and Biao Lian

Charlie Guinn - FPO; Committee: Professors Andrew Houck, Lawrence Cheuk, and Sarang Gopalakrishnan

Kaiwen Zheng - FPO; Committee: Professors Suzanne Staggs, Jo Dunkley and Chris Tully

Stephanie Kwan - FPO; Committee: Professors Isobel Ojalvo, Mariangela Lisanti and Jim Olsen

Nicholas Haubrich - FPO; Committee: Professors Jim Olsen, Isobel Ojalvo, Mariangela Lisanti

Roman Kolevatov - FPO; Committee: Professors Lyman Page, Paul Steinhardt, Frans Pretorius, and Saptarshi Chaudhuri

Gillian Kopp - FPO; Committee: Professors Chris Tully, Isobel Ojalvo, Mariangela Lisanti, and Andrew Leifer

Zheyi Zhu - FPO; Committee: Professors Phuan Ong, Sanfeng Wu, and Silviu Pufu

Yuhan Wang- FPO; Committee: Professors Suzanne Staggs, Jo Dunkley, Isobel Ojalvo, and Lyman Page

Benjamin Spar - FPO; Committee: Professors Waseem Bakr, Lawrence Cheuk, and David Huse

Shuo Ma - FPO; Committee: Professors Jeffrey Thompson, Waseem Bakr, Lawrence Cheuk, and David Huse

Mike Onyszczak - FPO; Committee: Professors Sanfeng Wu, Phuan Ong, and Silviu Pufu

Maksim Litskevich - FPO; Committee: Professors Zahid Hasan, Saptarshi Chaudhuri and Sanfeng Wu

Wentao Fan - FPO; Committee: Professors Hakan Tureci, Jim Olsen, and Dima Abanin

PhD. Theses 2024

View past theses (2011 to present) in the Dataspace Catalog of Ph.D Theses in the Department of Physics

View past theses (1996 to present) in the ProQuest Database

How to Write a PhD Research Proposal

Starting on PhD research is a big step in a researcher’s academic journey, and submitting a research proposal is a significant part of it. Indeed, many PhD scholars seek guidance on how to write a PhD research proposal , which is the foundational document that outlines the scope, objectives, and methodology of their prospective doctoral study. This article takes a look at the essential elements of a PhD research proposal and discuss practical steps to help develop an effective and strong document.

What is a PhD Research Proposal ?

Think of a PhD research proposal as a blueprint for your research. It lays out the main questions you want to seek answers to in your study, and presents an overview of the field you are planning to dive into. The PhD research proposal is not just about summarizing what is already available in the public domain. It is a critical document that demonstrates the feasibility, significance, and originality of the proposed research, and therefore, plays a crucial role in influencing admission decisions and securing funding opportunities. It also explains how your research is different and new and underscores the unique angles, perspectives and originality of your area of study.[ 1]

Why is a PhD Research Proposal Needed?

Even though your research proposal focuses on what you plan to do in the future, supervisors and funders also want to see what you have already achieved academically. Their interest lies in how well you understand the existing research, including recent studies and discussions in your academic field.

Therefore, it is essential to showcase your awareness about gaps in current knowledge and how your research will develop new knowledge and perspectives. Presenting a clear and detailed picture of this background is critical.[ 2]

How to Structure Your PhD Research Proposal ?

Research proposals can vary based on the institution you wish to send the proposal to or your subject of study, but there is a broad structure that needs to be followed.[ 3][4][5] A good PhD research proposal structure should highlight what makes your idea unique, feasible, and significant.

Follow these proven tips to structure a PhD research proposal and make it stand out:

Provisional Title: The title should not only describe the subject matter but also hint at your approach or main question.
Key Question: The key question is crucial for defining the scope and purpose of the research, making sure everything stays clear and organized.
Topic Description: This section serves to introduce readers to the topic being studied, outlines its key focus areas, and helps establish a clear context for the study.
Existing Knowledge: Here, researchers are required to provide a brief outline of existing knowledge drawn from seminal works, recent research findings, and ongoing debates and highlight gaps in the literature, demonstrating their awareness of existing scholarship.
Detailed Bibliography: A detailed bibliography not only reflects the thoroughness of the literature review but also provides credibility to the proposed study. It allows reviewers to assess the quality and relevance of sources and enables them to gauge the scholarly merit of the PhD proposal.
Research Methodology: Details of a comprehensive plan outlining the methodology, procedures, and techniques that will be employed to address the research objectives are included here. Methodology includes information on any special facilities, resources, or equipment required for data collection, analysis, or experimentation.
Research Plan: This section provides a structured outline of the tasks and activities to be undertaken, along with their respective deadlines or milestones. It includes key phases such as literature review, data collection, analysis, and writing up the findings.

How Long Should a PhD Research Proposal be?

A research proposal typically spans approximately 2,500 words, although there is flexibility in the length as there is no strict upper or lower limit. However, the length may vary depending on the requirements of the institution or funding agency.

Tips for Writing Your PhD Research Proposal

Now that you understand the structure of a PhD research proposal , here are some tips to help you craft a compelling document: [7]

Start early: Begin drafting your research proposal well in advance to allow yourself ample time for revisions and refinement.
Be specific: Provide clear and detailed explanations of your objectives, methodology, and expected outcomes.
Seek feedback: Share your proposal with peers or advisors to receive constructive feedback and suggestions for improvement.
Write clearly and concisely: Use clear and concise language to convey your ideas effectively, avoiding unnecessary jargon or technical terms.
Be ethical: Address any ethical considerations related to your research, such as participant consent or data privacy.
Revise and proofread: Take time to revise, proofread and proofread again. Best to weed out any inconsistencies and errors for a favourable impression and to clearly communicate your ideas.
Be passionate: Clearly convey your enthusiasm for the research topic and potential impact of your proposed study. Let your passion for your research topic shine through your proposal.

References:

How to write a PhD research proposal – University of Liverpool
How to write a successful research proposal – Prospects
How to write a good PhD proposal – The University of Queensland
Writing a research proposal – Sociological Studies – The University of Sheffield
Writing a Good PhD Research Proposal – Researchgate
Guidelines to Writing a Research Proposal – University of Oxford
Top tips for writing your research proposal – University of Birmingham

Paperpal is a comprehensive AI writing toolkit that helps students and researchers achieve 2x the writing in half the time. It leverages 21+ years of STM experience and insights from millions of research articles to provide in-depth academic writing, language editing, and submission readiness support to help you write better, faster.

Get accurate academic translations, rewriting support, grammar checks, vocabulary suggestions, and generative AI assistance that delivers human precision at machine speed. Try for free or upgrade to Paperpal Prime starting at US$19 a month to access premium features, including consistency, plagiarism, and 30+ submission readiness checks to help you succeed.

Experience the future of academic writing – Sign up to Paperpal and start writing for free!

APA format: Basic Guide for Researchers

How to choose a dissertation topic, best wordtune alternative: detailed review and comparison, you may also like, how to write a research proposal: (with examples..., how to write an academic paragraph (step-by-step guide), maintaining academic integrity with paperpal’s generative ai writing..., research funding basics: what should a grant proposal..., how to write an abstract in research papers..., how to write dissertation acknowledgements, how to structure an essay, leveraging generative ai to enhance student understanding of....

Purdue Online Writing Lab Purdue OWL® College of Liberal Arts

Graduate Writing

Welcome to the Purdue OWL

This page is brought to you by the OWL at Purdue University. When printing this page, you must include the entire legal notice.

Copyright ©1995-2018 by The Writing Lab & The OWL at Purdue and Purdue University. All rights reserved. This material may not be published, reproduced, broadcast, rewritten, or redistributed without permission. Use of this site constitutes acceptance of our terms and conditions of fair use.

Subsections

Voice of the Insiders: Graduate Students’ Perceptions of the Application of Chatgpt in an Eap Context

36 Pages Posted: 23 Jul 2024

Wenli Zhang

affiliation not provided to SSRN

ChatGPT has certainly exerted a significant impact on the use of language and information extraction, and academic writing is the first and foremost to be affected. Academic English writing is an essential yet challenging domain for English learners (ELs). Therefore, more insights are needed to stimulate the optimal functions and values of ChatGPT for language education. This study explored graduate-level ELs’ perceptions of applying ChatGPT in educational settings, particularly in relation to their foreign language (L2) development. In this study, we collected students’ argumentative essays and conducted focus group interviews from four intact classes of an English for academic purposes (EAP) course at a top-tier Chinese university. Whereas the students generally had a positive attitude toward the use of ChatGPT in higher education and highlighted functions that expedited the accomplishment of academic tasks and/or facilitated academic English writing on the language level, they also tended to be cautious and defined ChatGPT as a tool that required the guidance of human agency. Such views and perceptions provide insights into how to integrate AI tools such as ChatGPT strategically and appropriately into teaching and learning in EAP courses, especially at the graduate level.

Keywords: ChatGPT, EAP context, graduate students, higher education, language education

Suggested Citation: Suggested Citation

affiliation not provided to SSRN ( email )

No Address Available

Shuai An (Contact Author)

Do you have a job opening that you would like to promote on ssrn, paper statistics, related ejournals, educational technology, media & library science ejournal.

Subscribe to this fee journal for more curated articles on this topic

Andrea Passalacqua, PhD

Academic Area	Finance
Academic Area	Economics
Academic Area	Innovation & Entrepreneurship

Dr. Andrea Passalacqua is a financial economist with a robust background in applying economic and financial analysis to policy-related questions in the financial industry. He has held positions in both the government and private sectors of the financial industry and has extensive experience working with large financial datasets, sophisticated econometric models, and simulations.

Dr. Passalacqua is a Vice President and Data Research Lead at JPMorgan Chase. He also holds a position as a visiting scholar at the AI, Analytics, and the Future of Work Initiative within Georgetown University McDonough School of Business. Previously he was an associate at Analysis Group, one of the leading financial consulting company. Dr. Passalacqua started his career as a financial economist at the Board of Governors of the Federal Reserve System where he works on issues related to the microeconomic and macroeconomic implications of banking regulations and supervision for the financial markets and the real economy.

Dr. Passalacqua served as a dissertation fellow at the Boston Federal Reserve and was a visiting researcher at the Bank of Italy. From 2016 to 2020, he was a research fellow at the Institute of Quantitative Studies at Harvard University and a visiting researcher at the Bank of Italy. He holds an MA and a Ph.D. from Harvard University, as well as a B.S. and M.Sc. in Economics from Bocconi University. His Ph.D. dissertation won the WFA Elsevier Sponsored Award for the Best Paper on Financial Institutions and the EFA Best Paper Award in Institutions and Markets.

Dr. Passalacqua has taught both graduate and undergraduate courses on empirical methods in finance, macroeconomics, econometrics, microeconomics, and entrepreneurship at Harvard Business School, the Department of Economics at Harvard University, and Bocconi University. He was awarded the Certificate of Distinction in Teaching issued by Harvard University.

Ph.D., Political Economy and Government - Economics Track, Harvard University MA,
Political Economy and Government - Economics Track, Harvard University M.S.,
Economics, Bocconi University B.S., Economics, Bocconi University
Alesina, Alberto, and Andrea Passalacqua. " The political economy of government debt. " Handbook of macroeconomics 2 (2016): 2599-2651.

Working Papers

Passalacqua, Andrea, Paolo Angelini, Francesca Lotti, and Giovanni Soggia. "The real effects of bank supervision: evidence from on-site bank inspections." Bank of Italy Temi di Discussione (Working Paper) No 1349 (2021).
Jou, Jeffrey, Anya Kleymenova, Andrea Passalacqua, Rajesh Vijavaraghavan, and Laszlo Sandor. "Disciplining Banks through Disclosure: Evidence from CFPB Consumer Complaints." Working Paper (2024).
Mezzanotti, Filippo, Andrea Passalacqua, and Giovanni Soggia. "Monitoring the Credit Market." Working Paper (2024).
Wealth Management

Honors and Distinctions

Elsevier Sponsored Award for the Best Paper on Financial InstitutionsElsevier Sponsored Award for the Best Paper on Financial Institutions. Issued by Western Finance Association, Jun 2021.
Best Paper Award in Institutions and Markets. Issued by EFA Eastern Finance Association, Apr 2021.
Certificate of Distinction in Teaching. Issued by Harvard Univeristy, May 2019.
Executive Education
About Carey Business School
Women's Leadership Initiative

The Graduation Part II: Graduate School Graduation Rates

This paper documents several facts about graduate program graduation rates using administrative data covering public and nonprofit graduate students in Texas. Despite conventional wisdom that most graduate students complete their programs, only 58 percent of who started their program in 2004 graduated within 6 years. Between the 2004 and 2013 entering cohorts, graduate student completion rates grew by 10 percentage points. Graduation rates vary widely by field of study--ranging from an average of 81 percent for law programs to 53 percent for education programs. We also find large differences in graduation rates across institutions. On average, 72 percent of students who entered programs in flagship public universities graduated in 6 years compared to only 57 percent of those who entered programs in non-research intensive (non-R1) institutions. Graduate students who do not complete may face negative consequences due to lower average earnings and substantial levels of student debt.

The conclusions of this research do not necessarily reflect the opinion or official position of the Texas Higher Education Coordinating Board, the Texas Workforce Commission, the State of Texas, or the National Bureau of Economic Research. This work was generously funded by Arnold Ventures.

MARC RIS BibTeΧ

Download Citation Data

Mentioned in the News

Graduate Research (Sophia)

Sophia (St. Kate's digital repository) has been sunsetted. Sophia previously encompassed a repository for graduate student scholarship, Sophia Scholar for faculty, and the open-access journal Research on Diversity in Youth Literature. Please search the collections below for the item you are looking for.

Find Graduate Final Projects

Browse across Student Scholarship

Doctor of Nursing Practice (DNP) Projects

Doctor of Occupational Therapy Doctoral (OTD) Projects

Doctor of Physical Therapy (DPT) Research Projects

Master of Arts in Education (MAED)

Master of Arts in Holistic Health Studies

Master of Arts in Occupational Therapy (MAOT)

Master of Arts in Organizational Leadership (MAOL)

Master of Science in Nursing (MSN) Scholarly Projects

Master of Social Work (MSW) Clinical Research Papers

more collections coming soon

Graduate student capstone projects and theses can also be found on our Digital Collections page.

Please aware that some research projects are under embargo and are not accessible, for instance, some DNP and MAHS projects from the past 2 years. We hope to have them all migrated to the new platform sometime in the fall and available for viewing and downloading.

For more assistance please view our Graduate Research Projects Guide or contact a librarian at [email protected] .

Honors Projects

Antonian Scholars Honors Program

Faculty Profiles (formerly "Sophia Scholar")

Our faculty profile service allows faculty and staff to build an online scholarly presence that promotes visibility, measures impact, and can be tailored to a range of disciplinary and professional needs.

Faculty Profiles

Questions about Sophia?

Contact Sue Gray, Research & Instruction Librarian or Emily Asch, Director of Library and Archives

Research on Diversity in Youth Literature

Research on Diversity in Youth Literature (RDYL) is a peer-reviewed, online, open-access journal hosted by The Center for Children's Books, School of Information Sciences, University of Illinois Urbana-Champaign. It was previously hosted by St. Catherine University's Master of Library and Information Science Program and University Library (2018 to 2022).

Visit our new website, see submission policies, and read additional issues on their website .

Questions? Contact the co-editors at [email protected] .

Academics >
Public Administration & International Affairs Department >

Shi, Zhu paper on racial bias in school discipline published in EdWorkingPapers

Prepare to lead and make a difference in communities around the globe. At Maxwell, you’ll find faculty, students and alumni who are dedicated to the idea that well-trained public service-minded professionals can change the world.

Whether you are just starting out in your career or you are a seasoned professional, you’ll find a Maxwell program designed to help you:

fill gaps in knowledge,
build skills and confidence to take on a leadership role in your organization,
prepare to move across sectors and,
boost your ability to drive change.

Our Approach

We’ve situated a world-class team of public administration faculty among an equally accomplished faculty of the social sciences. This dynamic mix of educators and scholars creates a one-of-a-kind experience in which students immerse in interdisciplinary coursework and topical research at one of 15 research centers within the school.

You’ll reach your professional ambitions—fast. Our professional degrees provide exceptional preparation to advance your career in as few as 12 months, letting you get back to work more quickly than most other programs. And, if you have seven years of experience, you may qualify for one of our midcareer executive programs—with course options that are even more flexible and efficient.

complete master’s degree options in as few as 12 months

award-winning faculty of national and international renown

global professional network 37,000 strong

Explore Master’s Degrees

Public administration, master of public administration.

Prepare to lead positive change through a rigorous yet efficient array of skills-building courses.

On campus, in Syracuse, N.Y.
40 credits plus optional internships
Complete full-time in 12 to 18 months

Executive Master of Public Administration—On Campus or Online

Fill gaps in your knowledge with a program tailored to your career goals—five to seven years of experience required. An online option for working professionals provides added flexibility.

Online or on campus in Syracuse, N.Y., options (separate programs)
Complete part- or full-time in as few as 12 to 15 months

International Relations

Master of arts in international relations.

Satisfy your curiosity about the world, and develop skills and knowledge to change it for the better.

40 credits with a required global internship
Required career track selection to focus your studies
Complete full-time in 18 months

Master of Arts in Public Diplomacy and Global Communications

Prepare to drive change in a range of international contexts through effective public and interpersonal communications. One powerful degree, two schools: the Maxwell School and the S.I. Newhouse School of Public Communications.

On campus, in Syracuse, N.Y., and Washington, D.C.
43 credits with a required global internship

Executive Master's in International Relations

Improve your leadership and management skills and global affairs knowledge—seven years of experience required.

Complete on a part- or full-time basis

Executive Master’s in International Relations in D.C.

Leverage the combined experience, knowledge and networks of two top-ranked institutions—the Maxwell School and the Center for Strategic and International Studies—and earn your degree while you work in D.C. Seven years of experience required.

On campus, in Washington, D.C.
Complete part-time in as few as 18 to 20 months

Doctoral Program

Phd in public administration.

Educate the next generation of public service leaders and conduct research that moves the field of public administration and policy analysis forward.

72 credits (36 credits beyond the M.A.)
Full-time residential program, typically completed in 4.5 years

Department Admission Events

We offer a range of in-person and virtual opportunities to learn more about the Maxwell School and degree programs offered by the Public Administration and International Affairs Department, answer questions about the application process, and help you work toward your goals.

Schedule a One-on-One Meeting

to ask more in-depth questions not covered in the group information sessions. These individual meetings are informational in nature and are not admission interviews.

Study in Washington, D.C.

Our D.C. headquarters at the Center for Strategic and International Studies, top-ranked by the Global Go To Think Tank Index, gives students access to leading minds in the world of policy and international affairs, competitive internships, employment opportunities and a deeply engaged network of D.C.-based alumni.

See Maxwell-in-Washington

Need a midcareer boost? Explore our Certificates of Advanced Study

We offer a variety of regional, topical and skills-based Certificates of Advanced Study (CAS) to help you focus and refine your expertise. Some CAS can be earned as part of a master's program while others can be earned independent of a degree. Learn to use data to formulate and analyze policy, deepen your knowledge of effective public management practices, develop techniques to promote collaboration and resolve conflicts, broaden your expertise in a specific region of the world, and more.

PAIA students gathered in conference room

Aug 4, 2021

Equal Time for Equal Crime? Racial Bias in School Discipline

Ying Shi & Maria Zhu

EdWorkingPapers, April 2021

Departments

Economics Department

Public Administration & International Affairs Department

Center for Policy Research

EdWorkingPapers

Well-documented racial disparities in rates of exclusionary discipline may arise from differences in hard-to-observe student behavior or bias, in which treatment for the same behavior varies by student race or ethnicity. This study provides evidence for the presence of bias using statewide administrative data that contain rich details on individual disciplinary infractions.

Two complementary empirical strategies identify bias in suspension outcomes. The first uses within-incident variation in disciplinary outcomes across White and under-represented minority students. The second employs individual fixed effects to examine how consequences vary for students across incidents based on the race of the other student involved in the incident. Both approaches find that Black students are suspended for longer than Hispanic or White students, while there is no evidence of Hispanic-White disparities.

The similarity of findings across approaches and the ability of individual fixed effect models to account for unobserved characteristics common across disciplinary incidents provide support that remaining racial disparities are likely not driven by behavior.

Related News

School News

May 14, 2024

‘We Are Not a People of the Past’: Tenth Decade Project Builds Ties with Indigenous Community

Archaeology , Centennial , Education , Grant Awards , Native American , New York State , School History , Student Experience

Apr 13, 2024

Yingyi Ma Article on the Threat US Security Policies Pose to AI Leadership Published by Brookings

Autonomous Systems , China , Education , Government , International Affairs , U.S. Immigration , United States

Feb 5, 2024

Educational Attainment and Perceived Need for Future ADL Assistance

Aging , Education , United States

Jan 12, 2024

Yingyi Ma Article on the Renewed Fervor for China’s Civil Service Exam Published in Nikkei Asia

China , Education , Government , Labor

Upcoming Events

We continue to follow the advice of local public health officials in regards to in-person events. Please check Syracuse University’s Stay Safe website for the latest safety protocols before coming to campus or other in-person venues.

August 5, 2024

Executive master's in international relations d.c. virtual information session.

12:00PM-1:00PM

August 15, 2024

Maxwell school – master of public administration program curriculum overview (virtual session).

9:00AM-10:00AM

August 20, 2024

Maxwell school – ma international relations program curriculum overview (virtual session).

3:00PM-4:00PM

To read this content please select one of the options below:

Please note you do not have access to teaching notes, mothers in doctoral education: who cares an ecological-systems analysis of support for phd mums.

Studies in Graduate and Postdoctoral Education

ISSN : 2398-4686

Article publication date: 9 July 2024

In light of a largely negative discourse, this study aims to identify the various ways in which PhD mums have been supported in a range of contexts to develop a comprehensive typology of positive support, as well as to identify patterns that transcend institutional, national and disciplinary borders.

Design/methodology/approach

The study is guided by ecological systems theory which allows for the investigation of the various interrelated systems that influence (in this case) doctoral researchers. A mixed-methods survey elicited the first-hand experiences from recent and current PhD mums across the world.

The authors have identified a range of potential supports for PhD mums, but note a careful balance is needed to ensure that PhD mums are supported in their roles as both mother and doctoral researcher, where support in one domain does not contradict nor ignore support for the other.

Originality/value

This study complements the existing knowledge body, which consists mainly of localised studies, by providing a birds-eye view of issues that transcend national, geographic and disciplinary borders. A topography provides a visual map of the various sources of potential support and the complicated relationships between them.

Doctoral education
Ecological systems theory
Survey methodology
Equity and access

Acknowledgements

The authors wish to thank the many PhD mums who participated in this study and extend those thanks to all of those who have supported them in their doctoral journey.

Mason, S. , Bond, M. and Ledger, S.F. (2024), "Mothers in doctoral education: Who cares? An ecological-systems analysis of support for PhD mums", Studies in Graduate and Postdoctoral Education , Vol. ahead-of-print No. ahead-of-print. https://doi.org/10.1108/SGPE-09-2023-0080

Emerald Publishing Limited

All feedback is valuable.

Please share your general feedback

Report an issue or find answers to frequently asked questions

Contact Customer Support

Have a language expert improve your writing

Run a free plagiarism check in 10 minutes, generate accurate citations for free.

Knowledge Base
Starting the research process

How to Choose a Dissertation Topic | 8 Steps to Follow

Published on November 11, 2022 by Shona McCombes and Tegan George. Revised on November 20, 2023.

Choosing your dissertation topic is the first step in making sure your research goes as smoothly as possible. When choosing a topic, it’s important to consider:

Your institution and department’s requirements
Your areas of knowledge and interest
The scientific, social, or practical relevance
The availability of data and resources
The timeframe of your dissertation
The relevance of your topic

You can follow these steps to begin narrowing down your ideas.

Step 1: check the requirements, step 2: choose a broad field of research, step 3: look for books and articles, step 4: find a niche, step 5: consider the type of research, step 6: determine the relevance, step 7: make sure it’s plausible, step 8: get your topic approved, other interesting articles, frequently asked questions about dissertation topics.

The very first step is to check your program’s requirements. This determines the scope of what it is possible for you to research.

Is there a minimum and maximum word count?
When is the deadline?
Should the research have an academic or a professional orientation?
Are there any methodological conditions? Do you have to conduct fieldwork, or use specific types of sources?

Some programs have stricter requirements than others. You might be given nothing more than a word count and a deadline, or you might have a restricted list of topics and approaches to choose from. If in doubt about what is expected of you, always ask your supervisor or department coordinator.

Start by thinking about your areas of interest within the subject you’re studying. Examples of broad ideas include:

Twentieth-century literature
Economic history
Health policy

To get a more specific sense of the current state of research on your potential topic, skim through a few recent issues of the top journals in your field. Be sure to check out their most-cited articles in particular. For inspiration, you can also search Google Scholar , subject-specific databases , and your university library’s resources.

As you read, note down any specific ideas that interest you and make a shortlist of possible topics. If you’ve written other papers, such as a 3rd-year paper or a conference paper, consider how those topics can be broadened into a dissertation.

After doing some initial reading, it’s time to start narrowing down options for your potential topic. This can be a gradual process, and should get more and more specific as you go. For example, from the ideas above, you might narrow it down like this:

Twentieth-century literature Twentieth-century Irish literature Post-war Irish poetry
Economic history European economic history German labor union history
Health policy Reproductive health policy Reproductive rights in South America

All of these topics are still broad enough that you’ll find a huge amount of books and articles about them. Try to find a specific niche where you can make your mark, such as: something not many people have researched yet, a question that’s still being debated, or a very current practical issue.

At this stage, make sure you have a few backup ideas — there’s still time to change your focus. If your topic doesn’t make it through the next few steps, you can try a different one. Later, you will narrow your focus down even more in your problem statement and research questions .

There are many different types of research , so at this stage, it’s a good idea to start thinking about what kind of approach you’ll take to your topic. Will you mainly focus on:

Collecting original data (e.g., experimental or field research)?
Analyzing existing data (e.g., national statistics, public records, or archives)?
Interpreting cultural objects (e.g., novels, films, or paintings)?
Comparing scholarly approaches (e.g., theories, methods, or interpretations)?

Many dissertations will combine more than one of these. Sometimes the type of research is obvious: if your topic is post-war Irish poetry, you will probably mainly be interpreting poems. But in other cases, there are several possible approaches. If your topic is reproductive rights in South America, you could analyze public policy documents and media coverage, or you could gather original data through interviews and surveys .

You don’t have to finalize your research design and methods yet, but the type of research will influence which aspects of the topic it’s possible to address, so it’s wise to consider this as you narrow down your ideas.

It’s important that your topic is interesting to you, but you’ll also have to make sure it’s academically, socially or practically relevant to your field.

Academic relevance means that the research can fill a gap in knowledge or contribute to a scholarly debate in your field.
Social relevance means that the research can advance our understanding of society and inform social change.
Practical relevance means that the research can be applied to solve concrete problems or improve real-life processes.

The easiest way to make sure your research is relevant is to choose a topic that is clearly connected to current issues or debates, either in society at large or in your academic discipline. The relevance must be clearly stated when you define your research problem .

Before you make a final decision on your topic, consider again the length of your dissertation, the timeframe in which you have to complete it, and the practicalities of conducting the research.

Will you have enough time to read all the most important academic literature on this topic? If there’s too much information to tackle, consider narrowing your focus even more.

Will you be able to find enough sources or gather enough data to fulfil the requirements of the dissertation? If you think you might struggle to find information, consider broadening or shifting your focus.

Do you have to go to a specific location to gather data on the topic? Make sure that you have enough funding and practical access.

Last but not least, will the topic hold your interest for the length of the research process? To stay motivated, it’s important to choose something you’re enthusiastic about!

Most programmes will require you to submit a brief description of your topic, called a research prospectus or proposal .

Remember, if you discover that your topic is not as strong as you thought it was, it’s usually acceptable to change your mind and switch focus early in the dissertation process. Just make sure you have enough time to start on a new topic, and always check with your supervisor or department.

If you want to know more about the research process , methodology , research bias , or statistics , make sure to check out some of our other articles with explanations and examples.

Methodology

Sampling methods
Simple random sampling
Stratified sampling
Cluster sampling
Likert scales
Reproducibility

Statistics

Null hypothesis
Statistical power
Probability distribution
Effect size
Poisson distribution

Research bias

Optimism bias
Cognitive bias
Implicit bias
Hawthorne effect
Anchoring bias
Explicit bias

Formulating a main research question can be a difficult task. Overall, your question should contribute to solving the problem that you have defined in your problem statement .

However, it should also fulfill criteria in three main areas:

Researchability
Feasibility and specificity
Relevance and originality

All research questions should be:

Focused on a single problem or issue
Researchable using primary and/or secondary sources
Feasible to answer within the timeframe and practical constraints
Specific enough to answer thoroughly
Complex enough to develop the answer over the space of a paper or thesis
Relevant to your field of study and/or society more broadly

You can assess information and arguments critically by asking certain questions about the source. You can use the CRAAP test , focusing on the currency , relevance , authority , accuracy , and purpose of a source of information.

Ask questions such as:

Who is the author? Are they an expert?
Why did the author publish it? What is their motivation?
How do they make their argument? Is it backed up by evidence?

A dissertation prospectus or proposal describes what or who you plan to research for your dissertation. It delves into why, when, where, and how you will do your research, as well as helps you choose a type of research to pursue. You should also determine whether you plan to pursue qualitative or quantitative methods and what your research design will look like.

It should outline all of the decisions you have taken about your project, from your dissertation topic to your hypotheses and research objectives , ready to be approved by your supervisor or committee.

Note that some departments require a defense component, where you present your prospectus to your committee orally.

The best way to remember the difference between a research plan and a research proposal is that they have fundamentally different audiences. A research plan helps you, the researcher, organize your thoughts. On the other hand, a dissertation proposal or research proposal aims to convince others (e.g., a supervisor, a funding body, or a dissertation committee) that your research topic is relevant and worthy of being conducted.

Cite this Scribbr article

If you want to cite this source, you can copy and paste the citation or click the “Cite this Scribbr article” button to automatically add the citation to our free Citation Generator.

McCombes, S. & George, T. (2023, November 20). How to Choose a Dissertation Topic | 8 Steps to Follow. Scribbr. Retrieved July 30, 2024, from https://www.scribbr.com/research-process/dissertation-topic/

Is this article helpful?

Shona McCombes

Other students also liked, how to define a research problem | ideas & examples, what is a research design | types, guide & examples, writing strong research questions | criteria & examples, what is your plagiarism score.

IMAGES

(PDF) PhD Dissertation FULL
How To Write Phd Thesis
How to Write PhD? Understand the Exact Way to Write PhD Here!
How to write a PhD: A template
(PDF) Phd Thesis
How to Write a College Essay: Phd research proposal sociology

VIDEO

How to process generate easily project/PhD papers wright reference or bibliography
AMU PHD ENTRANCE PAPERS l PHD computer Science B paper l amu phd papers
AMU PHD ENTRANCE PAPERS l PHD in Sociology l admission test paper l amu phd papers
AMU PHD ENTRANCE PAPERS l PHD in POST HARVEST ENGG AND TECH l amu phd papers
AMU PHD ENTRANCE PAPERS l PHD in Education paper l amu phd papers
PhD

COMMENTS

Prize-Winning Thesis and Dissertation Examples
Find out how to write a high-quality thesis or dissertation by looking at previous work done by other students on similar topics. Browse a list of award-winning undergraduate, master's, and PhD theses and dissertations from various disciplines.
Harvard University Theses, Dissertations, and Prize Papers
Explore the history and diversity of academic research at Harvard through this collection of student theses, dissertations, and prize papers. Find the first Harvard Ph.D., the first woman Ph.D., and the works of famous alumni and scholars.
What Is a Dissertation?
Learn how to write a dissertation, a long-form piece of academic writing based on original research for a PhD program. Find out the structure, format, and tips for your dissertation, with examples and a template to download.
EBSCO Open Dissertations
EBSCO Open Dissertations is a collaboration between EBSCO and BiblioLabs to increase traffic and discoverability of ETD research. You can join the movement and add your theses and dissertations to the database, making them freely available to researchers everywhere while increasing traffic to your institutional repository.
Research Papers
You'll be required to submit a research paper at the end of either the first or the second summer. Some fields require papers following both summers. You'll have access to faculty guidance and supervision during the summer period, and you'll present your paper in a seminar format and/or before field faculty. Attend an Admission Event.
What Is a Thesis?
Revised on April 16, 2024. A thesis is a type of research paper based on your original research. It is usually submitted as the final step of a master's program or a capstone to a bachelor's degree. Writing a thesis can be a daunting experience. Other than a dissertation, it is one of the longest pieces of writing students typically complete.
OATD
OATD is a free online service that provides access to ETDs from around the world. You can search for ETDs by keywords, author, title, institution, date, language, and more.
Writing Research Papers
Learn how to write a research paper for your PhD, including topic, source base, argument, structure, formatting and submission. Find tips and guides on choosing a publisher, revising your work and dealing with feedback.
PhD Thesis
Learn how to write a PhD thesis, from choosing a programme and structure to submitting and defending your dissertation. Find tips on literature review, research, structure, word count, references and more.
What Is a PhD Thesis?
Learn what a PhD thesis is, how to write one, and what to include in each section. Find out the typical structure, length, formatting, and publishing options for your thesis.
How to find, read and organize papers
A PhD student shares her tips and tools for managing the literature in her research area. Learn how to use RSS feeds, reference managers, PDF readers and databases to streamline your paper workflow.
PDF Guidelines for The PhD Dissertation
Most dissertations are 100 to 300 pages in length. All dissertations should be divided into appropriate sections, and long dissertations may need chapters, main divisions, and even subdivisions. Students should keep in mind that GSAS and many departments deplore overlong and wordy dissertations.
Dissertations
Over the last 80 years, ProQuest has built the world's most comprehensive and renowned dissertations program. ProQuest Dissertations & Theses Global (PQDT Global), continues to grow its repository of 5 million graduate works each year, thanks to the continued contribution from the world's universities, creating an ever-growing resource of emerging research to fuel innovation and new insights.
How to find resources by format
A dissertation is the final large research paper, based on original research, for many disciplines to be able to complete a PhD degree. The thesis is the same idea but for a masters degree. They are often considered scholarly sources since they are closely supervised by a committee, are directed at an academic audience, are extensively ...
Harvard PhD Theses in Physics, 2001-
17 Oxford Street Cambridge, MA 02138 (617) 495-2872 phone (617) 495-0416 fax
Recent PhD Dissertations
Recent PhD Dissertations. Terekhov, Jessica (September 2022) -- "On Wit in Relation to Self-Division". Selinger, Liora (September 2022) -- "Romanticism, Childhood, and the Poetics of Explanation". Lockhart, Isabel (September 2022) -- "Storytelling and the Subsurface: Indigenous Fiction, Extraction, and the Energetic Present".
UNT Theses and Dissertations
UNT Theses and Dissertations. Theses and dissertations represent a wealth of scholarly and artistic content created by masters and doctoral students in the degree-seeking process. Some ETDs in this collection are restricted to use by the UNT community. Search Inside this Collection.
10 tips for writing a PhD thesis
Think carefully about your writing. Write your first draft, leave it and then come back to it with a critical eye. Look objectively at the writing and read it closely for style and sense. Look out for common errors such as dangling modifiers, subject-verb disagreement and inconsistency.
The best academic search engines [Update 2024]
Get 30 days free. 1. Google Scholar. Google Scholar is the clear number one when it comes to academic search engines. It's the power of Google searches applied to research papers and patents. It not only lets you find research papers for all academic disciplines for free but also often provides links to full-text PDF files.
Dissertation & Thesis Outline
Example 1: Passive construction. The passive voice is a common choice for outlines and overviews because the context makes it clear who is carrying out the action (e.g., you are conducting the research ). However, overuse of the passive voice can make your text vague and imprecise. Example: Passive construction.
PhD. Theses
PhD. Theses 2024Nicholas QuirkTransport Experiments on Topological and Strongly Correlated ConductorsLeander ThieleGetting ready for new Data: Approaches to some Challenges in CosmologyJingyao WangTwo Approaches for Nuclear Spin Co-magnetometryRemy DelvaSimulation of Measurement-Based Entanglement in Silicon Spin QubitsCheng-Li ChiuVisualizing I...
How to Write a PhD Research Proposal
Starting on PhD research is a big step in a researcher's academic journey, and submitting a research proposal is a significant part of it. Indeed, many PhD scholars seek guidance on how to write a PhD research proposal, which is the foundational document that outlines the scope, objectives, and methodology of their prospective doctoral study.This article takes a look at the essential ...
Graduate Writing
Graduate Writing ; Introduction to Graduate Writing . Graduate Writing Overview ; Writing is a Conversation Writing is a Process; Writing is a Social Endeavor Writing is Discipline Specific ; Graduate Writing Topics . Old_Graduate_Writing_Topics_Assets; Style; Editing & Proofreading; Organization and Structure; Graduate Writing Topics; Graduate ...
Voice of the Insiders: Graduate Students' Perceptions of the ...
This study explored graduate-level ELs' perceptions of applying ChatGPT in educational settings, particularly in relation to their foreign language (L2) development. In this study, we collected students' argumentative essays and conducted focus group interviews from four intact classes of an English for academic purposes (EAP) course at a ...
Andrea Passalacqua, PhD
Dr. Andrea Passalacqua is a financial economist with a robust background in applying economic and financial analysis to policy-related questions in the financial industry. He has held positions in both the government and private sectors of the financial industry and has extensive experience working with large financial datasets, sophisticated econometric models, and simulations.
The Graduation Part II: Graduate School Graduation Rates
This paper documents several facts about graduate program graduation rates using administrative data covering public and nonprofit graduate students in Texas. Despite conventional wisdom that most graduate students complete their programs, only 58 percent of who started their program in 2004 graduated within 6 years. Between the 2004 and 2013 ...
Graduate Research (Sophia)
Master of Social Work (MSW) Clinical Research Papers. more collections coming soon . Graduate student capstone projects and theses can also be found on our Digital Collections page. Please aware that some research projects are under embargo and are not accessible, for instance, some DNP and MAHS projects from the past 2 years.
Shi, Zhu paper on racial bias in school discipline published in
PhD in Public Administration Department Admission Events We offer a range of in-person and virtual opportunities to learn more about the Maxwell School and degree programs offered by the Public Administration and International Affairs Department, answer questions about the application process, and help you work toward your goals.
Mothers in doctoral education: Who cares? An ecological-systems
A mixed-methods survey elicited the first-hand experiences from recent and current PhD mums across the world.,The authors have identified a range of potential supports for PhD mums, but note a careful balance is needed to ensure that PhD mums are supported in their roles as both mother and doctoral researcher, where support in one domain does ...
How to Choose a Dissertation Topic
Step 1: Check the requirements. Step 2: Choose a broad field of research. Step 3: Look for books and articles. Step 4: Find a niche. Step 5: Consider the type of research. Step 6: Determine the relevance. Step 7: Make sure it's plausible. Step 8: Get your topic approved. Other interesting articles.

Harvard University Theses, Dissertations, and Prize Papers

What does a prize-winning thesis look like?

Accessing These Materials

Related Collections

Librarians/Admins

Clinical Decisions Users

EBSCO Open Dissertations

Increasing Discovery & Usage of ETD Research

How Does EBSCO Open Dissertations Work?

You might also be interested in:

About Stanford GSB

About the Experience

Full-Time Degree Programs

Non-Degree & Certificate Programs

Faculty Research

Research Hub

Research Labs

Research Initiatives

Welcome, Alumni

Admission Events & Information Sessions

Open Access Theses and Dissertations

Recent Additions

About OATD.org

Visual OATD.org

Pick the right programme for you

On this page

PhD thesis research

PhD thesis vs dissertation

Can I use my Masters research in my PhD thesis?

PhD thesis structure

How long is a PhD thesis?

How many chapters should a PhD thesis have?

Writing up your PhD thesis

PhD thesis feedback

Finishing your PhD thesis

Our postgrad newsletter shares courses, funding news, stories and advice

Select your nearest city

Do you want hassle-free information and advice?

Create your account

What Is a Thesis?

What Should a Thesis Include?

Acknowledgements

1. Introduction

2. Literature Review

3. Main Body

4. Conclusion

How Many Words Is a PhD Thesis?

How Do I Format My Thesis?

What Happens When I Finish My Thesis?

How Do I Publish My Thesis?

Browse PhDs Now

How to find, read and organize papers

Access options

Competing Interests

Related Articles

ICYS Research Fellow, NIMS, Japan

2024 Recruitment notice Shenzhen Institute of Synthetic Biology: Shenzhen, China

Global Faculty Recruitment of School of Life Sciences, Tsinghua University

Postdoctoral Fellowships: Cancer Diagnosis and Precision Oncology of Gastrointestinal Cancers

Associate or Senior Editor, Nature Physics

Quick links

How to find resources by format

Search for dissertations and theses

Locating University of Minnesota Dissertations and Theses

Other Sources for Dissertations and Theses

University of Minnesota Dissertations and Theses FAQs

In what libraries are U of M dissertations and theses located?

Circulating copies of master's theses:

Archival copies (non-circulating)

Where is a specific dissertation of thesis located?

How can dissertations and theses accepted by a specific department be located?

Apply | Contact Us | Carol Davis Fund Anonymous Feedback to the Physics Chair

Department of English

Recent PhD Dissertations

UNT Theses and Dissertations

At a Glance

Latest Additions RSS Feed

Cite This Collection

Explore Holdings

Resource Types