phd thesis of harvard university

Dissertation

Requirements, deadlines, and other information on preparing and submitting a dissertation.

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PhD candidates must successfully complete and submit a dissertation to qualify for degree conferral. It is perhaps the most important and far-reaching undertaking in the entire doctoral program, having an impact that extends well beyond graduate studies.

Requirements and Deadlines

Each graduate program maintains specific requirements for the content and evaluation of the dissertation. Be sure to review your program’s departmental requirements prior to beginning the process. You should also review Harvard Griffin GSAS’s dissertation policies for important information about formatting, submission, and publishing and distribution options, including embargoes.

Degrees are awarded in November, March, and May. Dissertation submission deadlines are noted in the Degree Calendar section of Policies .

Help with the Dissertation

Library research .

It’s never too early to start planning for your dissertation. The Harvard Library can help! The Library maintains a guide for graduate students engaged in scholarly writing titled the Writing Oasis . They also offer access to Overleaf , which is an online LaTeX and Rich Text collaborative writing and publishing tool that makes the process of academic writing, editing, and publishing quicker and easier. Overleaf has a section on Writing Your Dissertation that you may find useful.

Writing

Students can find support with planning and preparing to write the dissertation from their academic advisors and programs. The Fellowships & Writing Center also offers workshops on various aspects of dissertation writing, holds brainstorming office hours during which students may discuss their dissertations, and provides written feedback on dissertation chapters.

Dissertation Completion Fellowships

Harvard Griffin GSAS provides a dissertation completion fellowship (DCF) for one academic year to eligible PhD students in the humanities and social sciences who anticipate completing their dissertations within the year. Find out more in Policies .

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Psychology Graduate Program

Psychology Department
Dissertation & Defense

The doctoral dissertation is the culmination of scholarly work in graduate school. Every PhD candidate in the Harvard Griffin Graduate School of Arts and Sciences is required to successfully complete and submit a dissertation to qualify for degree conferral. The dissertation must be submitted in one of two formats.

The traditional format is described in detail here .
Three articles describing original empirical research that the dissertation committee deems “of publishable quality.” The student must be the first author on each paper or obtain approval from their committee to include papers for which they are not the first author . At least one of the three papers must be under review, in press, or published in a peer-reviewed journal.
An introductory chapter that thoroughly reviews the literature relevant to the three papers.
A concluding chapter that describes what was learned from the three papers.

Post-prospectus changes : If students would like to make substantive changes to the content and/or format of the dissertation after prospectus approval, they must revise their prospectus and obtain approval of the revised version from all committee members. Another meeting of the prospectus committee may be required if the changes are substantial.

If students would like to make changes to the composition of their dissertation committee after prospectus approval, they must obtain 1) approval from the primary advisor/ committee chair to make the change, and 2) approval of the prospectus by any new committee member(s). If the new member doesn't approve of the prospectus as written, the prospectus may need to be revised. If the revisions are substantial, students may need to have another full prospectus meeting to ensure the revised version of the prospectus is approved by every member of the committee.

Dissertation Committee: The Dissertation Committee comprises of the three members of the prospectus committee and an additional member—the outside examiner— who was not a member of the prospectus committee. The outside examiner must be approved by the CHD. Any tenured or tenure-track faculty member in the Psychology Department is automatically approved as an outside examiner. Outside scholars require approval from your primary advisor and from the CHD. Students may ask the Graduate Program Coordinator if a particular scholar had already been approved in the past; if so, there is no further action needed by the student. If they have not been, students should petition the CHD via email to the Graduate Program Coordinator; describe briefly why you are requesting the scholar and what they will add to the committee, i.e. "for their expertise in..." and include a copy of the scholar's CV.

Dissertation Approval: The dissertation must be approved by the student’s advisor before it is submitted to the dissertation committee. After the student sends the dissertation to the committee, they will have three weeks to read and assess the work. Each committee member should complete a Dissertation Approval Form and return it to the student and Graduate Office within three weeks.

The committee members will receive an evaluation form, where they select among these options:

Not acceptable in current form and cannot be corrected without major revisions and consultation of committee.
Needs considerable revision, to be seen by me again. Needs committee consultation: [yes/no]
Is acceptable with a few minor revisions, to be seen by me again.
Is acceptable with voluntary minor revisions.
Is acceptable as is.

If substantive revisions are required, the student will need to respond to these revisions, distribute a revised version to the committee, and the committee will have two more weeks to read and assess the revised version. All committee members must approve "as is" or "with voluntary minor revisions" before the defense can proceed.

Dissertation Defense Date: Students are responsible for coordinating the schedule for their dissertation defense date. Due to the difficulty of coordinating schedules for several faculty, students are encouraged to find a mutually agreeable tentative date and time (we recommend a 2-hour duration) for the defense and ask committee members to pencil it in. However, it is crucial to recognize that this date will be confirmed only when the student has received approval from all members of their committee. In addition, the department must advertise the defense for two weeks before the date it can be held. Therefore, we strongly recommend the dissertation be submitted to the committee ten weeks before tentative defense date to accommodate time for rounds of revisions. The date will be pushed back if the student has not received approval from all members

Defenses can take place at any point in the year, as long as the committee agrees to convene. However, note there are deadlines to complete the defense in time for November, March, and May degree conferrals. The Department recommends that the defense be held at least 1-2 weeks prior to the dissertation submission deadline for that degree period. Deadlines for the current year can be found online in Harvard Griffin GSAS Policies in the Introduction section.

To submit: Email your dissertation as a single Word Doc or PDF file (or both) to your committee, cc’ing the Graduate Program coordinator. The Graduate Program Coordinator will follow up on this email by distributing the Dissertation Approval Form .

Oral Defense: Once the dissertation committee has approved the written dissertation, the student should book a room for the defense and send an abstract to the Graduate Office, which will announce the defense to the Department. WJH 1550 and 105, and NW 243 are the most common choices for a room. Students should submit a room request through FAS RoomBook . Committee members may participate remotely, if necessary, via Zoom or speakerphone. The Building Operations Office can lend a conference phone for this purpose. The Department does not have a budget to fly in committee members from other institutions except for former Harvard Psychology faculty members, although students should consult with their individual advisors to determine whether they would cover travel costs. We can provide a parking pass for committee members at nearby institutions.

The oral examination is moderated by the student's advisor, who is the Committee Chair. The advisor will introduce the student. The student gives a talk about the work, and then the advisor will ask for questions from the committee. Talk times vary depending on area; please check in with your advisor to confirm. If there is time, the advisor may also choose to invite questions from the audience. The defense is a public event open to all. At the conclusion of the examination, the candidate and audience are dismissed, and the committee meets to make a final evaluation of the student's candidacy for a PhD. In cases of a positive evaluation, the committee members sign the Dissertation Acceptance Certificate .

Dissertation Acceptance Certificate (DAC): Students must complete a dissertation acceptance certificate (DAC), which includes the title of the dissertation and signatures of at least three readers approved by the student’s program. Prior to the oral defense, the Graduate Office will prepare a DAC, which includes the title of the dissertation, student name, and signature lines for each committee member The title on the DAC must read exactly as it does on the title page of the dissertation. A copy of the signed DAC should appear before the title page of the online dissertation submission; no page number should be assigned to the DAC. The DAC will be included in all copies of the dissertation.

Dissertation Submission: Following the successful oral defense, students must submit their dissertation in PDF format to the FAS Registrar’s Office through ProQuest ETD by the deadline established for each degree conferral date (see the Harvard Griffin GSAS Degree Calendar or the Registrar’s Office website ). Please carefully review the dissertation formatting before submitting online. Formatting errors may prevent students from receiving their degree. Harvard Griffin GSAS provides this helpful Dissertation Submission Checklist . The DAC must additionally be uploaded as a separate "Administrative Document" when submitting the electronic dissertation. The Registrar’s Office will review the dissertation for compliance and will contact the student to confirm acceptance or to request alterations. More details on the dissertation submission process can be found here .

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Dissertation, the dissertation.

After the successful completion of the general examination, a topic and adviser for the dissertation should be chosen. Students should discuss potential topics with several faculty members before beginning. The final prospectus should be approved not later than 3 months (within the academic calendar -- September through May) of passing the general examinations in order to be considered to be making satisfactory progress toward the degree. This is the time when the Thesis Reader and Dissertation Proposal form should be completed and submitted to the department office or DGS. Three signatures are now required on the thesis acceptance certificate. Two of the three signatories must be GSAS faculty. The primary adviser must be in the department of History of Art and Architecture; the secondary adviser need not be. In addition to the primary and secondary advisers the student may have one or more other readers. Two readers must be in the department.

Thesis Defense

The Department of History of Art and Architecture requires that all Ph.D. dissertations (of students entering in September 1997 and beyond) be defended. At the defense, the student has the opportunity to present and formally discuss the dissertation with respect to its sources, findings, interpretations, and conclusions, before a Defense Committee knowledgeable in the student's field of research. The Director of the thesis is a member of the Defense committee. A committee is permitted to convene in the absence of the thesis Director only in cases of emergency or other extreme circumstances. The Defense Committee may consist of up to five members, but no fewer than three. The suggested make-up of the members of the committee should be brought to the Director of Graduate Studies for approval. Two members of this committee should be from the Department of History of Art and Architecture. One member can be outside the Department (either from another Harvard department or outside the University). The Defense will be open to department members only (faculty and graduate students), but others may be invited at the discretion of the candidate. Travel for an outside committee member is not possible at this time; exceptions are made rarely. We encourage the use of Skype or conference calling for those committee members outside of Cambridge and have accommodation for either. A modest honorarium will be given for the reading of the thesis for one member of the jury outside the University. A minimum of one month prior to scheduling the defense, a final draft of the dissertation should be submitted to two readers (normally the primary and secondary advisors). Once the two readers have informed the director of graduate studies that the dissertation is “approved for defense,” the candidate may schedule the date, room, and time for the defense in consultation with the department and the appointed committee. This date should be no less than six weeks after the time the director of graduate studies has been informed that the dissertation was approved for defense. It should be noted that preliminary approval of the thesis for defense does not guarantee that the thesis will be passed. The defense normally lasts two hours. The candidate is asked to begin by summarizing the pertinent background and findings. The summary should be kept within 20 minutes. The Chair of the Defense Committee cannot be the main thesis advisor. The Chair is responsible for allotting time, normally allowing each member of the committee 20 to 30 minutes in which to make remarks on the thesis and elicit responses from the candidate. When each committee member has finished the questioning, the committee will convene in camera for the decision. The possible decisions are: Approved; Approved with Minor Changes; Approved Subject to Major Revision (within six months); Rejected. The majority vote determines the outcome. --Approved with minor changes: The dissertation is deemed acceptable subject to minor revisions. The dissertation is corrected by the candidate, taking into account the comments made by the committee. The revisions will be supervised by the primary adviser. Upon completion of the required revision, the candidate is recommended for the degree. --Approved subject to major revision within six months: The dissertation is deemed acceptable subject to major revisions. All revisions must be completed within six months from the date of the dissertation defense. Upon completion of the required revisions, the defense is considered to be successful. The revisions will be supervised by the primary adviser. --Rejected: The dissertation is deemed unacceptable and the candidate is not recommended for the degree. A candidate may be re-examined only once upon recommendation of two readers. Rejection is expected to be very exceptional. A written assessment of the thesis defense will be given to the candidate and filed in the Department by the Chair of the Defense Committee. Candidates should keep in mind the Graduate School of Arts and Sciences deadlines for submission of the thesis and degree application when scheduling the defense.

Submitting the Dissertation

Students ordinarily devote three years to research and writing the dissertation, and complete it prior to seeking full-time employment. The dissertation will be judged according to the highest standards of scholarship, and should be an original contribution to knowledge and understanding of art. The final manuscript must conform to University requirements described in the Supplement The Form of the Doctoral Thesis distributed by the Graduate School of Arts and Sciences.

Graduate students should negotiate with their readers the timing of submission of drafts prior to final revisions. However, the complete manuscript of the dissertation must be submitted to the thesis readers not later than August 1 for a November degree, November 1 for a March degree, and April 1 for a May degree (this in order to provide both the committee with time to read and the candidate to revise, if necessary). The thesis readers may have other expectations regarding dates for submission which should be discussed and handled on an individual basis. The student is still responsible for distribution of the thesis to the committee for reading. In cases where a thesis defense is scheduled, the thesis must be submitted to the primary adviser at least one month prior to the defense. The thesis defense must be scheduled at least two weeks prior to the university deadline for thesis submission.

A written assessment by dissertation readers must be included with the final approval of each thesis including suggestions, as appropriate, on how the dissertation might be adapted for later publication.

The Dissertation is submitted online. The Dissertation Acceptance Certificate (original) must be on Harvard watermark paper and is submitted directly to the registrar’s office once it is signed.

Degree Application and Deadlines

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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)

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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)

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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
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Recent PhD Dissertations

Of Unsound Mind: Madness and Mental Health in Asian American Literature

Carrie Geng

Cultural Capitals: Postwar Yiddish between Warsaw and Buenos Aires

Rachelle Grossman

Counter-Republics of Letters: Politics, Publishing, and the Global Novel

Elisa Sotgiu

‘Through the Looking Glass’: The Narrative Performance of Anarkali Aisha Dad

Indeterminate “Greekness”: A Diasporic and Transnational Poetics Ilana Freedman

Imagined Mothers: The Construction of Italy, Ancient Greece, and Anglo-American Hegemony Francesca Bellei

The Untimely Avant-Garde: Literature, Politics, and Transculturation in the Sinosphere (1909-2020) Fangdai Chen

Recovering the Language of Lament: Modernism, Catastrophe, and Exile Sarah Corrigan

Beyond Diaspora:The Off Home in Jewish Literature from Latin America and Israel Lana Jaffe Neufeld

Artificial Humanities: A Literary Perspective on Creating and Enhancing Humans from Pygmalion to Cyborgs Nina Begus

Music and Exile in Twentieth-Century German, Italian, and Polish Literature Cecily Cai

We Speak Violence: How Narrative Denies the Everyday Rachael Duarte Riascos

Anticlimax: The Multilingual Novel at the Turn of the 21st Century Matylda Figlerowicz

Forgetting to Remember: An Approach to Proust’s Recherche Lara Roizen

The Event of Literature:An Interval in a World of Violence Petra Taylor

The English Baroque:The Logic of Excess in Early Modern Literature Hudson Vincent

Porte Planète; Ville Canale –parisian knobs /visually/ turned to \textual\ currents Emma Zofia Zachurski

‘…not a poet but a poem’: A Lacanian study of the subject of the poem Marina Connelly The Tune That Can No Longer Be Recognized: Late Medieval Chinese Poetry and Its Affective Others Jasmine Hu The Invention of the Art Film: Authorship and French Cultural Policy Joseph Pomp Apocalypticism in the Arabic Novel William Tamplin The Sound of Prose: Rhythm, Translation, Orality Thomas Wisniewski

The New Austerity in Syrian Poetry Daniel Behar

Mourning the Living: Africa and the Elegy on Screen Molly Klaisner

Art Beyond the Norms: Art of the Insane, Art Brut, and the Avant-Garde from Prinzhorn to Dubuffet (1922-1949) Raphael Koenig

Words, Images and the Self: Iconoclasm in Late Medieval English Literature Yun Ni

Europe and the Cultural Politics of Mediterranean Migrations Argyro Nicolaou

Voice of Power, Voice of Terror: Lyric, Violence, and the Greek Revolution Simos Zenios

Every Step a New Movement: Anarchism in the Stalin-Era Literature of the Absurd and its Post-Soviet Adaptations Ania Aizman

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Ambient Meaning: Mood, Vibe, System Peli Grietzer

Year of the Titan: Percy Bysshe Shelley and Ancient Poetry Benjamin Sudarsky

Metropolitan Morning: Loss, Affect, and Metaphysics in Buenos Aires, 1920-1940 Juan Torbidoni

Sophisticated Players: Adults Writing as Children in the Stalin Era and Beyond Luisa Zaitseva

Collecting as Cultural Technique: Materialistic Interventions into History in 20th Century China Guangchen Chen

Pathways of Transculturation: Chinese Cultural Encounters with Russia and Japan (1880-1930) Xiaolu Ma

Beyond the Formal Law: Making Cases in Roman Controversiae and Tang Literary Judgments Tony Qian

Alternative Diplomacies: Writing in Early Twentieth-Century Shanghai, Istanbul, and Beyond? Alice Xiang

The Literary Territorialization of Manchuria: Rethinking National and Transnational Literature in East Asia from the Frontier Miya Qiong Xie World Literature and the Chinese Compass, 1942-2012 Yanping Zhang

Anatomy of ‘Decadence’ Henry Bowles

Medicine As Storytelling: Emplotment Strategies in Doctor-Patient Encounters and Beyond (1870-1830) Elena Fratto

Platonic Footnotes: Figures of Asymmetry in Ancient Greek Thought Katie Deutsch

Children’s Literature Grows Up Christina Phillips Mattson

Humor as Epiphanic Awareness and Attempted Self-Transcendence Curtis Shonkwiler

Ethnicity, Ethnogenesis and Ancestry in the Early Iron Age Aegean as Background to and through the Lens of the Iliad Guy Smoot

The Modern Stage of Capitalism: The Drama of Markets and Money (1870-1930) Alisa Sniderman

Repenting Roguery: Penance in the Spanish Picaresque Novel and the Arabic and Hebrew Maqāma Emmanuel Ramírez Nieves

The “Poetics of Diagram” John Kim

Dreaming Empire: European Writers in the Fascist Era Robert Kohen

The Poetics of Love in Prosimetra across the Medieval Mediterranean Isabelle Levy

Renaissance Error: Digression from Ariosto to Milton Luke Taylor

The New Voyager: Theory and Practice of South Asian Literary Modernisms Rita Banerjee

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Bāgh-e Bi-Bargi: Aspects of Time and Presence in the Poetry of Mehdi Akhavān Sāles Marie Huber

Freund-schaft: Capturing Aura in an Unframed Literary Exchange Clara Masnatta

Class, Gender and Indigeneity as Counter-discourses in the African Novel: Achebe, Ngugi, Emecheta, Sow Fall and Ali Fatin Abbas

The Empire of Chance: War, Literature, and the Epistemic Order of Modernity Anders Engberg-Pedersen

Poetics of the unfinished: illuminating Paul Celan’s “Eingedunkelt” Thomas Connolly

Towards a Media History of Writing in Ancient Italy Stephanie Frampton Character Before the Novel: Representing Moral Identity in the Age of Shakespeare Jamey Graham

Transforming Trauma: Memory and Slavery in Black Atlantic Literature since 1830 Raquel Kennon

Renaissance Romance: Rewarding the Boundaries of Fiction Christine S. Lee

Psychomotor Aesthetics: Conceptions of Gesture and Affect in Russian and American Modernity, 1910s-1920s Ana Olenina

Melancholy, Ambivalence, Exhaustion: Responses to National Trauma in the Literature and Film of France and China Erin Schlumpf

The Poetics of Human-Computer Interaction Dennis Tenen

Novelizing the Muslim Wars of Conquest: The Christian Pioneers of the Arabic Historical Novel Luke Leafgren

Secret Lives of the City: Reimagining the Urban Margins in 20th-Century Literature and Theory, from Surrealism to Iain Sinclair Jennifer Hui Bon Hoa

Archaic Greek Memory and Its Role in Homer Anita Nikkanen

Deception Narratives and the (Dis)Pleasure of Being Cheated: The Cases of Gogol, Nabokov, Mamet, and Flannery O’Connor Svetlana Rukhelman

Aesthetic Constructs and the Work of Play in 20th Century Latin American and Russian Literature Natalya Sukhonos

Stone, Steel, Glass: Constructions of Time in European Modernity Christina Svendsen

See here for a full list of dissertations since 1904 .

Founded as a graduate program in 1904 and joining with the undergraduate Literature Concentration in 2007, Harvard’s Department of Comparative Literature operates at the crossroads of multilingualism, literary study, and media history.

Congratulations to our recent PhD Graduates!

Congratulations to mai nguyen ’24: 2023–2024 bowdoin undergraduate prize winner.

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HLS Dissertations, Theses, and JD Papers

S.j.d. dissertations, ll.m. papers, ll.m. theses, j.d. papers, submitting your paper to an online collection, other sources for student papers beyond harvard, getting help, introduction.

This is a guide to finding Harvard Law School (“HLS”) student-authored works held by the Library and in online collections. This guide covers HLS S.J.D Dissertations, LL.M. papers, J.D. third-year papers, seminar papers, and prize papers.

There have been changes in the HLS degree requirements for written work. The library’s collection practices and catalog descriptions for these works has varied. Please note that there are gaps in the library’s collection and for J.D. papers, few of these works are being collected any longer.

If we have an S.J.D. dissertation or LL.M. thesis, we have two copies. One is kept in the general collection and one in the Red Set, an archival collection of works authored by HLS affiliates. If we have a J.D. paper, we have only one copy, kept in the Red Set. Red Set copies are last resort copies available only by advance appointment in Historical and Special Collections .

Some papers have not been processed by library staff. If HOLLIS indicates a paper is “ordered-received” please use this form to have library processing completed.

The HLS Doctor of Juridical Science (“S.J.D.”) program began in 1910. The library collection of these works is not comprehensive. Exceptions are usually due to scholars’ requests to withhold Library deposit.

HLS S.J.D. Dissertations in HOLLIS To refine these search results by topic or faculty advisor, or limit by date, click Add a New Line.
Hein’s Legal Theses and Dissertations Microfiche Mic K556.H45x Drawers 947-949 This microfiche set includes legal theses and dissertations from HLS and other premier law schools. It currently includes about 300 HLS dissertations and theses.
Hein's Legal Theses and Dissertations Contents List This content list is in order by school only, not by date, subject or author. It references microfiche numbers within the set housed in the Microforms room on the entry level of the library, drawers 947-949. The fiche are a different color for each institution.
ProQuest Dissertations and Theses @ Harvard University (Harvard login) Copy this search syntax: dg(S.J.D.) You will find about 130 SJD Dissertations dated from 1972 to 2004. They are not available in full text.
DASH Digital Access to Scholarship at Harvard Sponsored by Harvard University’s Office for Scholarly Communication, DASH is an open repository for research papers by members of the Harvard community. There are currently about 600 HLS student papers included. Unfortunately it is not possible to search by type of paper or degree awarded.

The Master of Laws (“LL.M.”) degree has been awarded since 1923. Originally, the degree required completion of a major research paper, akin to a thesis. Since 1993, most students have the option of writing the LL.M. "short paper." This is a 25-page (or longer) paper advised by a faculty supervisor or completed in conjunction with a seminar. Fewer LL.M. candidates continue to write the more extensive "long-paper." LL.M. candidates holding J.D.s from the U.S. must write the long paper.

HLS Written Work Requirements for LL.M. Degree The current explanation of the LL.M. written work requirement for the master of laws.

The library generally holds HLS LL.M. long papers and short papers. In recent years, we require author release in order to do so. In HOLLIS, no distinction is made between types of written work created in satisfaction of the LL.M. degree; all are described as LL.M. thesis. Though we describe them as thesis, the law school refers to them solely as papers or in earlier years, essays. HOLLIS records indicate the number of pages, so at the record level, it is possible to distinguish long papers.

HLS LL.M. Papers in HOLLIS To refine these search results by topic, faculty advisor, seminar or date, click Add a New Line.

HLS LL.M. Papers are sometimes available in DASH and Hein's Legal Dissertations and Theses. See descriptions above .

The HLS J.D. written work requirement has changed over time. The degree formerly required a substantial research paper comparable in scope to a law review article written under faculty supervision, the "third year paper." Since 2008, J.D. students have the option of using two shorter works instead.

Of all those written, the library holds relatively few third-year papers. They were not actively collected but accepted by submission from faculty advisors who deemed a paper worthy of institutional retention. The papers are described in HOLLIS as third year papers, seminar papers, and student papers. Sometimes this distinction was valid, but not always. The faculty deposit tradition more or less ended in 2006, though the possibility of deposit still exists.

J.D. Written Work Requirement
Faculty Deposit of Student Papers with the Library

HLS Third Year Papers in HOLLIS

To refine these search results by topic, faculty advisor, seminar or date, click Add a New Line.

HLS Student Papers Some third-year papers and LL.M. papers were described in HOLLIS simply as student papers. To refine these search results, click "Add a New Line" and add topic, faculty advisor, or course title.
HLS Seminar Papers Note that these include legal research pathfinders produced for the Advanced Legal Research course when taught by Virginia Wise.

Prize Papers

HLS has many endowed prizes for student papers and essays. There are currently 16 different writing prizes. See this complete descriptive list with links to lists of winners from 2009 to present. Note that there is not always a winner each year for each award. Prize winners are announced each year in the commencement pamphlet.

The Library has not specifically collected prize papers over the years but has added copies when possible. The HOLLIS record for the paper will usually indicate its status as a prize paper. The most recent prize paper was added to the collection in 2006.

Addison Brown Prize Animal Law & Policy Program Writing Prize Victor Brudney Prize Davis Polk Legal Profession Paper Prize Roger Fisher and Frank E.A. Sander Prize Yong K. Kim ’95 Memorial Prize Islamic Legal Studies Program Prize on Islamic Law Laylin Prize LGBTQ Writing Prize Mancini Prize Irving Oberman Memorial Awards John M. Olin Prize in Law and Economics Project on the Foundations of Private Law Prize Sidney I. Roberts Prize Fund Klemens von Klemperer Prize Stephen L. Werner Prize

Harvard Law School Prize Essays (1850-1868) A historical collection of handwritten prize essays covering the range of topics covered at that time. See this finding aid for a collection description.

The following information about online repositories is not a recommendation or endorsement to participate.

ProQuest Dissertations and Theses HLS is not an institutional participant to this collection. If you are interested in submitting your work, refer to these instructions and note that there is a fee required, which varies depending on the format of submission.
EBSCO Open Dissertations Relatively new, this is an open repository of metadata for dissertations. It is an outgrowth of the index American Doctoral Dissertations. The aim is to cover 1933 to present and, for modern works, to link to full text available in institutional repositories. Harvard is not one of the institutional participants.
DASH Digital Access to Scholarship at Harvard

Sponsored by Harvard University’s Office for Scholarly Communication, this is an open repository for research papers by members of the Harvard community. See more information about the project.

Some HLS students have submitted their degree paper to DASH. If you would like to submit your paper, you may use this authorization form or contact June Casey , Librarian for Open Access Initiatives and Scholarly Communication at Harvard Law School.

ProQuest Dissertations and Theses (Harvard Login) Covers dissertations and masters' theses from North American graduate schools and many worldwide. Provides full text for many since the 1990s and has descriptive data for older works.
NDLTD Networked Digital Library of Theses and Dissertations Union Catalog Worldwide in scope, NDLTD contains millions of records of electronic theses and dissertations from the early 1900s to the present.
Law Commons of the Digital Commons Network The Law Commons has dissertations and theses, as well as many other types of scholarly research such as book chapters and conference proceedings. They aim to collect free, full-text scholarly work from hundreds of academic institutions worldwide.
EBSCO Open Dissertations Doctoral dissertations from many institutions. Free, open repository.
Dissertations from Center for Research Libraries Dissertations found in this resource are available to the Harvard University Community through Interlibrary Loan.
British Library EThOS Dissertation source from the British Library listing doctoral theses awarded in the UK. Some available for immediate download and some others may be requested for scanning.
BASE from Bielefeld University Library Index of the open repositoris of most academic institutions. Includes many types of documents including doctoral and masters theses.

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Last Updated: Sep 12, 2023 10:46 AM
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PhD Thesis Guide

This phd thesis guide will guide you step-by-step through the thesis process, from your initial letter of intent to submission of the final document..

All associated forms are conveniently consolidated in the section at the end.

Deadlines & Requirements

Students should register for HST.ThG during any term in which they are conducting research towards their thesis. Regardless of year in program students registered for HST.ThG in a regular term (fall or spring) must meet with their research advisor and complete the Semi-Annual PhD Student Progress Review Form to receive credit.

Years 1 - 2

Students participating in lab rotations during year 1, may use the optional MEMP Rotation Registration Form , to formalize the arrangement and can earn academic credit by enrolling in HST.599.
A first letter of intent ( LOI-1 ) proposing a general area of thesis research and research advisor is required by April 30th of the second year of registration.
A second letter of intent ( LOI-2 ) proposing a thesis committee membership and providing a more detailed description of the thesis research is required by April 30th of the third year of registration for approval by the HST-IMES Committee on Academic Programs (HICAP).

Year 4

Beginning in year 4, (or after the LOI-2 is approved) the student must meet with their thesis committee at least once per semester.
Students must formally defend their proposal before the approved thesis committee, and submit their committee approved proposal to HICAP by April 30 of the forth year of registration.
Meetings with the thesis committee must be held at least once per semester.

HST has developed these policies to help keep students on track as they progress through their PhD program. Experience shows that students make more rapid progress towards graduation when they interact regularly with a faculty committee and complete their thesis proposal by the deadline.

Getting Started

Check out these resources for finding a research lab.

The Thesis Committee: Roles and Responsibilities

Students perform doctoral thesis work under the guidance of a thesis committee consisting of at least three faculty members from Harvard and MIT (including a chair and a research advisor) who will help guide the research. Students are encouraged to form their thesis committee early in the course of the research and in any case by the end of the third year of registration. The HST IMES Committee on Academic Programs (HICAP) approves the composition of the thesis committee via the letter of intent and the thesis proposal (described below).

Research Advisor

The research advisor is responsible for overseeing the student's thesis project. The research advisor is expected to:

oversee the research and mentor the student;
provide a supportive research environment, facilities, and financial support;
discuss expectations, progress, and milestones with the student and complete the Semi-Annual PhD Student Progress Review Form each semester;
assist the student to prepare for the oral qualifying exam;
guide the student in selecting the other members of the thesis committee;
help the student prepare for, and attend, meetings of the full thesis committee, to be held at least once per semester;
help the student prepare for, and attend, the thesis defense;
evaluate the final thesis document.

The research advisor is chosen by the student and must be a faculty member of MIT* or Harvard University and needs no further approval. HICAP may approve other individuals as research advisor on a student-by-student basis. Students are advised to request approval of non-faculty research advisors as soon as possible. In order to avoid conflicts of interest, the research advisor may not also be the student's academic advisor. In the event that an academic advisor becomes the research advisor, a new academic advisor will be assigned.

The student and their research advisor must complete the Semi-Annual PhD Student Progress Review during each regular term in order to receive academic credit for research. Download Semi Annual Review Form

*MIT Senior Research Staff are considered equivalent to faculty members for the purposes of research advising. No additional approval is required.

Thesis Committee Chair

Each HST PhD thesis committee is headed administratively by a chair, chosen by the student in consultation with the research advisor. The thesis committee chair is expected to:

provide advice and guidance concerning the thesis research;
oversee meetings of the full thesis committee, to be held at least once per semester;
preside at the thesis defense;
review and evaluate the final thesis document.

The thesis committee chair must be well acquainted with the academic policies and procedures of the institution granting the student's degree and be familiar with the student's area of research. The research advisor may not simultaneously serve as thesis committee chair.

For HST PhD students earning degrees through MIT, the thesis committee chair must be an MIT faculty member. A select group of HST program faculty without primary appointments at MIT have been pre-approved by HICAP to chair PhD theses awarded by HST at MIT in cases where the MIT research advisor is an MIT faculty member.**

HST PhD students earning their degree through Harvard follow thesis committee requirements set by the unit granting their degree - either the Biophysics Program or the School of Engineering and Applied Sciences (SEAS).

** List of non-MIT HST faculty approved to chair MIT thesis proposals when the research advisor is an MIT faculty member.

In addition to the research advisor and the thesis committee chair, the thesis committee must include one or more readers. Readers are expected to:

attend meetings of the full thesis committee, to be held at least once per semester;
attend the thesis defense;

Faculty members with relevant expertise from outside of Harvard/MIT may serve as readers, but they may only be counted toward the required three if approved by HICAP.

The members of the thesis committee should have complementary expertise that collectively covers the areas needed to advise a student's thesis research. The committee should also be diverse, so that members are able to offer different perspectives on the student's research. When forming a thesis committee, it is helpful to consider the following questions:

Do the individuals on the committee collectively have the appropriate expertise for the project?
Does the committee include at least one individual who can offer different perspectives on the student's research? The committee should include at least one person who is not closely affiliated with the student's primary lab. Frequent collaborators are acceptable in this capacity if their work exhibits intellectual independence from the research advisor.
If the research has a near-term clinical application, does the committee include someone who can add a translational or clinical perspective?
Does the committee conform to HST policies in terms of number, academic appointments, and affiliations of the committee members, research advisor, and thesis committee chair as described elsewhere on this page?

[Friendly advice: Although there is no maximum committee size, three or four is considered optimal. Committees of five members are possible, but more than five is unwieldy.]

Thesis Committee Meetings

Students must meet with their thesis committee at least once each semester beginning in the fourth year of registration. It is the student's responsibility to schedule these meetings; students who encounter difficulties in arranging regular committee meetings can contact Julie Greenberg at jgreenbe [at] mit.edu (jgreenbe[at]mit[dot]edu) .

The format of the thesis committee meeting is at the discretion of the thesis committee chair. In some cases, the following sequence may be helpful:

The thesis committee chair, research advisor, and readers meet briefly without the student in the room;
The thesis committee chair and readers meet briefly with the student, without the advisor in the room;
The student presents their research progress, answers questions, and seeks guidance from the members of the thesis committee;

Please note that thesis committee meetings provide an important opportunity for students to present their research and respond to questions. Therefore, it is in the student's best interest for the research advisor to refrain from defending the research in this setting.

Letters of Intent

Students must submit two letters of intent ( LOI-1 and LOI-2 ) with applicable signatures.

In LOI-1, students identify a research advisor and a general area of thesis research, described in 100 words or less. It should include the area of expertise of the research advisor and indicate whether IRB approval (Institutional Review Board; for research involving human subjects) and/or IACUC approval (Institutional Animal Care and Use Committee; for research involving vertebrate animals) will be required and, if so, from which institutions. LOI-1 is due by April 30 of the second year of registration and and should be submitted to HICAP, c/o Traci Anderson in E25-518.

In LOI-2, students provide a description of the thesis research, describing the Background and Significance of the research and making a preliminary statement of Specific Aims (up to 400 words total). In LOI-2, a student also proposes the membership of their thesis committee. In addition to the research advisor, the proposed thesis committee must include a chair and one or more readers, all selected to meet the specified criteria . LOI-2 is due by April 30th of the third year of registration and should be submitted to HICAP, c/o Traci Anderson in E25-518.

LOI-2 is reviewed by the HST-IMES Committee on Academic Programs (HICAP) to determine if the proposed committee meets the specified criteria and if the committee members collectively have the complementary expertise needed to advise the student in executing the proposed research. If HICAP requests any changes to the proposed committee, the student must submit a revised LOI-2 for HICAP review by September 30th of the fourth year of registration. HICAP must approve LOI-2 before the student can proceed to presenting and submitting their thesis proposal. Any changes to the thesis committee membership following HICAP approval of LOI-2 and prior to defense of the thesis proposal must be reported by submitting a revised LOI-2 form to HICAP, c/o tanderso [at] mit.edu (Traci Anderson) . After final HICAP approval of LOI-2, which confirms the thesis committee membership, the student may proceed to present their thesis proposal to the approved thesis committee, as described in the next section.

Students are strongly encouraged to identify tentative thesis committee members and begin meeting with them as early as possible to inform the direction of their research. Following submission of LOI-2, students are required to hold at least one thesis committee meeting per semester. Students must document these meetings via the Semi- Annual PhD Student Progress Review form in order to receive a grade reflecting satisfactory progress in HST.ThG.

Thesis Proposal and Proposal Presentation

For MEMP students receiving their degrees through MIT, successful completion of the Oral Qualifying Exam is a prerequisite for the thesis proposal presentation. For MEMP students receiving their degrees through Harvard, the oral qualifying exam satisfies the proposal presentation requirement.

Proposal Document

Each student must present a thesis proposal to a thesis committee that has been approved by HICAP via the LOI-2 and then submit a full proposal package to HICAP by April 30th of the fourth year of registration. The only exception is for students who substantially change their research focus after the fall term of their third year; in those cases the thesis proposal must be submitted within three semesters of joining a new lab. Students registering for thesis research (HST.THG) who have not met this deadline may be administratively assigned a grade of "U" (unsatisfactory) and receive an academic warning.

The written proposal should be no longer than 4500 words, excluding references. This is intended to help students develop their proposal-writing skills by gaining experience composing a practical proposal; the length is comparable to that required for proposals to the NIH R03 Small Research Grant Program. The proposal should clearly define the research problem, describe the proposed research plan, and defend the significance of the work. Preliminary results are not required. If the proposal consists of multiple aims, with the accomplishment of later aims based on the success of earlier ones, then the proposal should describe a contingency plan in case the early results are not as expected.

Proposal Presentation

The student must formally defend the thesis proposal before the full thesis committee that has been approved by HICAP.

Students should schedule the meeting and reserve a conference room and any audio visual equipment they may require for their presentation. To book a conference room in E25, please contact Joseph Stein ( jrstein [at] mit.edu (jrstein[at]mit[dot]edu) ).

Following the proposal presentation, students should make any requested modifications to the proposal for the committee members to review. Once the committee approves the proposal, the student should obtain the signatures of the committee members on the forms described below as part of the proposal submission package.

[Friendly advice: As a professional courtesy, be sure your committee members have a complete version of your thesis proposal at least one week in advance of the proposal presentation.]

Submission of Proposal Package

When the thesis committee has approved the proposal, the student submits the proposal package to HICAP, c/o Traci Anderson in E25-518, for final approval. HICAP may reject a thesis proposal if it has been defended before a committee that was not previously approved via the LOI-2.

The proposal package includes the following:

the proposal document
a brief description of the project background and significance that explains why the work is important;
the specific aims of the proposal, including a contingency plan if needed; and
an indication of the methods to be used to accomplish the specific aims.
signed research advisor agreement form(s);
signed chair agreement form (which confirms a successful proposal defense);
signed reader agreement form(s).

Thesis Proposal Forms

SAMPLE Title Page (doc)
Research Advisor Agreement Form (pdf)
Chair Agreement Form (pdf)
Reader Agreement Form (pdf)

Thesis Defense and Final Thesis Document

When the thesis is substantially complete and fully acceptable to the thesis committee, a public thesis defense is scheduled for the student to present his/her work to the thesis committee and other members of the community. The thesis defense is the last formal examination required for receipt of a doctoral degree. To be considered "public", a defense must be announced to the community at least five working days in advance. At the defense, the thesis committee determines if the research presented is sufficient for granting a doctoral degree. Following a satisfactory thesis defense, the student submits the final thesis document, approved by the research advisor, to Traci Anderson via email (see instructions below).

[Friendly advice: Contact jrstein [at] mit.edu (Joseph Stein) at least two weeks before your scheduled date to arrange for advertising via email and posters. A defense can be canceled for insufficient public notice.]

Before the Thesis Defense

Committee Approves Student to Defend: The thesis committee, working with the student and reviewing thesis drafts, concludes that the doctoral work is complete. The student should discuss the structure of the defense (general guidelines below) with the thesis committee chair and the research advisor.

Schedule the Defense: The student schedules a defense at a time when all members of the thesis committee will be physical present. Any exceptions must be approved in advance by the IMES/HST Academic Office.

Reserve Room: It is the student's responsibility to reserve a room and any necessary equipment. Please contact imes-reservation [at] mit.edu (subject: E25%20Room%20Reservation) (IMES Reservation) to reserve rooms E25-140, E25-141, E25-119/121, E25-521.

Final Draft: A complete draft of the thesis document is due to the thesis committee two weeks prior to the thesis defense to allow time for review. The thesis should be written as a single cohesive document; it may include content from published papers (see libraries website on " Use of Previously Published Material in a Thesis ") but it may not be a simple compilation of previously published materials.

Publicize the Defense: The IMES/HST Academic Office invites the community to attend the defense via email and a notice on the HST website. This requires that the student email a thesis abstract and supplemental information to jrstein [at] mit.edu (Joseph Stein) two weeks prior to the thesis defense. The following information should be included: Date and time, Location, (Zoom invitation with password, if offering a hybrid option), Thesis Title, Names of committee members, with academic and professional titles and institutional affiliations. The abstract is limited to 250 words for the poster, but students may optionally submit a second, longer abstract for the email announcement.

Thesis Defense Guidelines

Public Defense: The student should prepare a presentation of 45-60 minutes in length, to be followed by a public question and answer period of 15–30 minutes at discretion of the chair.

Committee Discussion: Immediately following the public thesis presentation, the student meets privately with the thesis committee and any other faculty members present to explore additional questions at the discretion of the faculty. Then the thesis committee meets in executive session and determines whether the thesis defense was satisfactory. The committee may suggest additions or editorial changes to the thesis document at this point.

Chair Confirms Pass: After the defense, the thesis committee chair should inform Traci Anderson of the outcome via email to tanderso [at] mit.edu (tanderso[at]mit[dot]edu) .

Submitting the Final Thesis Document

Please refer to the MIT libraries thesis formatting guidelines .

Title page notes. Sample title page from the MIT Libraries.

Program line : should read, "Submitted to the Harvard-MIT Program in Health Sciences and Technology, in partial fulfillment of the the requirements for the degree of ... "

Copyright : Starting with the June 2023 degree period and as reflected in the MIT Thesis Specifications , all students retain the copyright of their thesis. Please review this section for how to list on your title page Signature Page: On the "signed" version, only the student and research advisor should sign. Thesis committee members are not required to sign. On the " Accepted by " line, please list: Collin M. Stultz, MD, PhD/Director, Harvard-MIT Program in Health Sciences and Technology/ Nina T. and Robert H. Rubin Professor in Medical Engineering and Science/Professor of Electrical Engineering and Computer Science.

The Academic Office will obtain Professor Stultz's signature.

Thesis Submission Components. As of 4/2021, the MIT libraries have changed their thesis submissions guidelines and are no longer accepting hard copy theses submissions. For most recent guidance from the libraries: https://libguides.mit.edu/mit-thesis-faq/instructions

Submit to the Academic Office, via email ( tanderso [at] mit.edu (tanderso[at]mit[dot]edu) )

pdf/A-1 of the final thesis should include an UNSIGNED title page

A separate file with a SIGNED title page by the student and advisor, the Academic Office will get Dr. Collin Stultz's signature.

For the MIT Library thesis processing, fill out the "Thesis Information" here: https://thesis-submit.mit.edu/

File Naming Information: https://libguides.mit.edu/

Survey of Earned Doctorates. The University Provost’s Office will contact all doctoral candidates via email with instructions for completing this survey.

Links to All Forms in This Guide

MEMP Rotation Form (optional)
Semi-Annual Progress Review Form
Letter of Intent One
Letter of Intent Two

Final Thesis

HST Sample thesis title page (signed and unsigned)
Sample thesis title page (MIT Libraries)

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Graduate Profile: Frank J. Barrett, MDiv ‘24

How I’ve Changed

I have become more self-reflexive, more aware of my interior process and the range of feelings that come up, taking the time to articulate them slowly and thoughtfully. I hope I have become more forgiving and loving.

What I realized studying at HDS is that I love doing close textual reading. I learned that from taking classes with Frank Clooney, Andy Teeter, and Jon Levenson. I’m hoping to take Greek or Hebrew in the future in order to deepen my understanding of the New Testament and the Hebrew Bible.

Memorable Moment

My final thesis project: performing a jazz concert at HDS. Practicing and preparing for this helped me to not only develop my technique but to appreciate how music (especially jazz) is a spiritual experience that involves vulnerability and community.

Favorite Class or Professor

Andy Teeter's Hebrew Bible class; Professor Levenson's classes on "Genesis and Wisdom" literature; Frank Clooney's class on Hindu and Christian classics; Matt Pott's preaching class, Sean Kelly's Heidegger class; Stephanie Paulsell’s class on Virginia Woolf; Kevin Madigan’s class on the Holocaust. They all had a powerful impact on me. I leave HDS with a growing fascination with Judaism and the Hebrew Bible.

Message of Thanks

So many people inspired me and I'm grateful for them.

Andy Teeter, Jon Levenson, Matt Potts, Frank Clooney, Sean Kelly (in Philosophy).

Kevin Madigan, Stephanie Paulsell, Chris and Barbara Johnson, Dean Teddy, Dick Roos.

Sam Bailey. Several of my classmates, especially David Holden, Kristen Maples, Talia Goldberg, Jeff Breau, Dan Kramer.

My weekly Bible study group - especially Emma da Lisle and Andrew Schulman.

What I Hope to Be Remembered by

Intermittent wisdom.

I hope I will be remembered as a good listener who offered glimmers of hope.

Future Plans

I will be a Professor of Organizational Behavior at Case Western Reserve University in Cleveland and running the MS in Organizational Development. Based on my experience with my senior project I plan to perform at least one jazz concert per year. I will be doing another unit of CPE at Cleveland Clinic staring in the fall.

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Ivan Specht decided to employ his love of math during pandemic, which led to contact-tracing app, papers, future path

Part of the commencement 2024 series.

A collection of stories covering Harvard University’s 373rd Commencement.

Ivan Specht started at Harvard on track to study pure mathematics. But when COVID-19 sent everyone home, he began wishing the math he was doing had more relevance to what was happening in the world.

Specht, a New York City native, expanded his coursework, arming himself with statistical modeling classes, and began to “fiddle around” with simulating ways diseases spread through populations. He got hooked. During the pandemic, he became one of only two undergraduates to serve on Harvard’s testing and tracing committee, eventually developing a prototype contact-tracing app called CrimsonShield.

Specht took his curiosity for understanding disease propagation to the lab of computational geneticist Pardis Sabeti , professor in Organismic and Evolutionary Biology at Harvard and member of the Broad Institute, known for her work sequencing the Ebola virus in 2014 . Specht, now a senior, has since co-authored several studies around new statistical methods for analyzing the spread of infectious diseases, with plans to continue that work in graduate school.

“Ivan is absolutely brilliant and a joy to work with, and his research accomplishments already as an undergraduate are simply astounding,” Sabeti said. “He is operating at the level of a seasoned postdoc.”

His senior thesis, “Reconstructing Viral Epidemics: A Random Tree Approach,” described a statistical model aimed at tackling one of the most intractable problems that plague infectious disease researchers: determining who transmitted a given pathogen to whom during a viral outbreak. Specht was co-advised by computer science Professor Michael Mitzenmacher, who guided the statistical and computational sections of his thesis, particularly in deriving genomic frequencies within a host using probabilistic methods.

Specht said the pandemic made clear that testing technology could provide valuable information about who got sick, and even what genetic variant of a pathogen made them sick. But mapping paths of transmission was much more challenging because that process was completely invisible. Such information, however, could provide crucial new details into how and where transmission occurred and be used to test things such as vaccine efficacy or the effects of closing schools.

Specht’s work exploited the fact that viruses leave clues about their transmission path in their phylogenetic trees, or lines of evolutionary descent from a common ancestor. “It turns out that genome sequences of viruses provide key insight into that underlying network,” said the joint mathematics and statistics concentrator.

Uncovering this transmission network goes to the heart of how single-stranded RNA pathogens survive: Once they infect their host, they mutate, producing variants that are marked by slightly different genetic barcodes. Specht’s statistical model determines how the virus spreads by tracking the frequencies of different viral variants observed within a host.

As the centerpiece of his thesis, he reconstructed a dataset of about 45,000 SARS-CoV-2 genomes across Massachusetts, providing insights into how outbreaks unfolded across the state.

Specht will take his passion for epidemiological modeling to graduate school at Stanford University, with an eye toward helping both researchers and communities understand and respond to public health crises.

A graphic designer with experience in scientific data visualization, Specht is focused not only on understanding outbreaks, but also creating clear illustrations of them. For example, his thesis contains a creative visual representation of those 45,000 Massachusetts genomes, with colored dots representing cases, positioned nearby other “dots” they are likely to have infected.

Specht’s interest in graphics began in middle school when, as an enthusiast of trains and mass transit, he started designing imagined subway maps for cities that lack actual subways, like Austin, Texas . At Harvard, he designed an interactive “subway map” depicting a viral outbreak.

As a member of the Sabeti lab, Specht taught an infectious disease modeling course to master’s and Ph.D. students at University of Sierra Leone last summer. His outbreak analysis tool is also now being used in an ongoing study of Lassa fever in that region. And he co-authored two chapters of a textbook on outbreak science in collaboration with the Moore Foundation.

Over the past three years, Specht has been lead author of a paper in Scientific Reports and another in Cell Patterns , and co-author on two others, including a cover story in Cell . His first lead-author paper, “The case for altruism in institutional diagnostic testing,” showed that organizations like Harvard should allocate COVID-19 testing capacity to their surrounding communities, rather than monopolize it for themselves. That work was featured in The New York Times .

During his time at Harvard, Specht lived in Quincy House and was design editor of the Harvard Advocate, the University’s undergraduate literary magazine. In his free time he also composes music, and he still considers himself a mass transit enthusiast.

In the acknowledgements section of his thesis, he credited Sabeti with opening his eyes to the “many fascinating problems at the intersection of math, statistics, and computational biology.”

“I could fill this entire thesis with reasons I am grateful for Professor Sabeti, but I think they can be summarized by the sense of wonder and inspiration I feel every time I set foot in her lab.”

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Isabella’s senior thesis screenplay, a genre-bending family drama full of magical realism, centers the issues of missing and murdered Indigenous women and girls, and two-spirit people.

Dora Woodruff

Dora will next pursue a Ph.D. at MIT in algebraic combinatorics, a branch of mathematics that applies methods found in abstract algebra to discrete counting problems.

Aaron Shirley

Aaron dove into the world of medieval medicine with his thesis, “Holiness to Wholeness: Restoring Medieval Surgery to its Religious Cultural Context.”

Harvard Business School

Meet more HBS graduates

Davida Bynum

As a dual-degree candidate studying business and government, Davida is exploring the best ways to serve the public and private sectors.

Eduardo Avalos

With a focus on social entrepreneurship, Eduardo is hoping to create more equitable opportunities for those with fewer resources and less access.

Claudia Hill

By combining a degree in biomedical engineering with an M.B.A., Claudia plans to change millions of lives by creating life-saving drugs that can be distributed equitably.

Harvard Divinity School

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The growth I’ve experienced at HDS, both personal and academic, has been beyond anything I expected.” Samirah Jaigirdar Master of Theological Studies Learn more about Samirah’s studies

Jude Terna Ayua

Jude says his time at HDS changed his perspective about other faith traditions. After graduation, he will work as a private attorney and also run his non-profit, Keep Hope Alive Nigeria.

Christopher Siuzdak

While studying at HDS, Christopher’s favorite class was “Trends in World Christianity, 1900-2050,” which explored shifts in Christian confessions around the globe from a historical and social scientific perspective.

Harvard Extension School

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Tomas Hernandez

Extension School graduate Tomas was able to complete his Master of Liberal Arts in Finance degree while working a full-time job, being a dad to three children, and pursuing his love of karate.

Vivien Kocsis

For her Master of Liberal Arts in Data Science capstone project, Vivien had a very specific sponsor in mind: NASA.

Brian Mazmanian

Of his journey at Harvard Extension School, Brian said, “I can honestly say that I’ve loved every minute of it.”

Harvard Graduate School of Design

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For the first time, I truly felt like I was doing work that was very in touch with what GSD wants people to do, which is working with communities.” Priyanka Pillai Master in Design Engineering A joint Graduate School of Design and John A. Paulson School of Engineering and Applied Sciences program Learn more about Priyanka’s work

Harvard Graduate School of Education

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Kavya Krishna

Kavya was recently named among Forbes’ “30 Under 30” for her dedication to empowering girls with the digital literacy skills necessary to excel in a technology-driven society.

Alria and Vyankatesh Kharage

Alria and Vyankatesh met as undergraduates, fell in love, and began building a life together when their shared passion for education brought them to Harvard.

Moriah has turned her own struggles with sobriety and recovery into an opportunity to help others seeking higher education opportunities.

Harvard John A. Paulson School of Engineering and Applied Sciences

Meet more SEAS graduates

Ben Schroeder

During his internship at SpaceX, Ben talked to experts to help him finalize his design for a robotic hand to help astronauts perform tasks remotely without the fatigue imposed by a suit glove.

Maria Emilia Mazzolenis

While pursuing a master’s degree in data science, Maria always kept her focus on the responsibility and impact that technology can have on society.

Lachlain McGranahan

Whether on the Charles River as a skipper on the Harvard Crimson sailing team or on the ocean helping to decipher sperm whale communications, Lachlain was never too far from his love for water and engineering.

Harvard Griffin Graduate School of Arts and Sciences

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Thomas found a way to identify otherwise unrecorded 20th-century hurricanes, laying the foundation for a new field of historical environmental seismology.

Dylan Renaud

Dylan’s Harvard Horizons project combines research in the emerging field of nanoscale photonics—how light interacts with very small objects—with practical computing applications to create novel devices that move information via light.

Juhee Kang, who studied history and East Asian languages and civilizations, explored how psychological testing and mass data collection evolved in 20th-century Japan, where they became central across society.

Harvard Kennedy School

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Ananya Chhaochharia

While pursuing a Master in Public Policy, Ananya learned how to turn a political campaign into an art form.

Adebayo Alonge

After founding a platform that provides safe pharmaceuticals in Kenya, Nigeria, and Uganda, Adebayo decided to pursue a mid-career master’s degree to help him understand how to expand to even more countries.

For her capstone research project, Maya sought to understand and find solutions for the inequality in Boston’s core city services, which aren’t equitably distributed across its diverse neighborhoods and communities.

Harvard Law School

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Nicholas Gonzalez

Nicholas was instantly smitten with the law when he took part in mock trial and moot court competitions in high school. The performative part of arguing a case felt both familiar and alluring.

Phoebe Kotlikoff

After becoming one of the first female U.S. Navy submariners, Phoebe was inspired by the integration of submarine service and the repeal of “Don’t Ask, Don’t Tell” to attend law school.

Harvard Medical School

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I often tell students two things: ‘You can do it,’ and ‘but not alone.’” David Velasquez Doctor of Medicine Learn what inspired David to earn a third Harvard degree

Deborah Plana

Personal experience with cancer in her family cemented Deborah’s determination to pursue a career that combines her passions for analysis and improving patient care.

Mitchell Winkie

There are only a handful of residency positions in dermatology for the U.S. military each year. There was only one spot in the Navy open to graduating medical students, and Mitchell was selected to fill it.

It was an online search for “science internships, Boston” that set Irene on a 10-year path to Harvard where she would ultimately complete a Ph.D. in biological and biomedical sciences.

Harvard School of Dental Medicine

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Sheridan Danquah

Growing up, Sheridan didn’t encounter a dentist until after moving from Ghana to the U.S. when he was 10. The experience made a profound impression on him and influenced him to enter the field.

Explore how Sheridan found his purpose

Jessica Latimer

Jessica turned a passion for doodling into a side job creating scientific illustrations that have landed in well-known medical and dental journals across the country.

Read about Jessica’s unique skill set

Harvard T.H. Chan School of Public Health

Meet more Harvard Chan School graduates

I heard of people who had given birth during their incarceration, and I was really shocked.” Bethany Kotlar, who studied the impact of maternal incarceration during pregnancy and after birth on child development Learn more about Bethany’s research

Irfan Chaudhuri

Watching his grandmother battle Alzheimer’s disease inspired Irfan to explore the role public health could play in Alzheimer’s prevention.

After navigating the roadblocks involved in gender-affirming care, Ivan founded the startup Trans Health HQ to decrease barriers for clinicians and patients.

James Frater

As a child with asthma, James saw the dangers that come from inadequate health care. That’s why he decided to gain the skills to understand health systems and improve health equity across the globe.

Senior concentrator Jorge Ruiz awarded DRCLAS thesis prize

The David Rockefeller Center for Latin American Studies (DRCLAS) has awarded senior concentrator Jorge Ruiz the James R. and Isabel D. Hammond Thesis Prize on Spanish-speaking Latin American Studies for his thesis, Old Parties and New Cleavages: Puerto Rico’s Emerging Multi-Party System .

His thesis centered on the 2020 election, which saw five parties gain legislative representation – a historic moment given two parties, the Popular Democratic Party (PPD) and the New Progressive Party (PNP), have dominated Puerto Rican politics for half a century. For the first time, neither the PPD nor the PNP won a majority in the Senate – so what explains the unprecedented emergence of a multi-party system in Puerto Rico?

Jorge’s thesis addresses this puzzle by analyzing public opinion data, party platforms, and original interviews with officials from all five Puerto Rican parties. By showing that, although voter preferences and party positions historically revolved around Puerto Rico’s relationship with the United States, Puerto Ricans have recently become divided around social and economic issues. Nevertheless, the PPD and PNP failed to take clear positions on these emerging issues, creating an opportunity for new parties to succeed.

Arguing that these findings can be generalized beyond Puerto Rico, Jorge determined that party systems are likely to change when a critical mass of voters form strong preferences along a new political cleavage and established parties fail to adopt positions relevant to these new priorities. This framework provides an alternative to preexisting explanations for party system change, which have traditionally focused on the role of electoral institutions.

The DRCLAS prize committee unanimously voted Jorge as the winner of the prestigious award, noting they were “thoroughly impressed by [his] research and writing.”

The prize, which is recognized with a $2,000 grant, will be celebrated at the annual DRCLAS Certificate, Thesis Prize, and Fellowships Ceremony on May 22.

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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 ...
Dissertation
Each graduate program maintains specific requirements for the content and evaluation of the dissertation. Be sure to review your program's departmental requirements prior to beginning the process. You should also review Harvard Griffin GSAS's dissertation policies for important information about formatting, submission, and publishing and ...
ProQuest Dissertations & Theses Global
Most post-1990 titles are available in full text. ProQuest Dissertations & Theses Global indexes dissertations and masters' theses from most North American graduate schools as well as some European universities. It provides full text for most indexed dissertations from 1990 to present. Search Dissertations & Theses.
Browsing HBS Theses and Dissertations by Keyword
Now showing items 1-20 of 129. Keyword. Academic-Industry Collaborations [1] Accounting [4] Arbitrage [1] Asset-Based Lending [1] Audit [1] banking strategy [1] Bayesian Statistics [1]
Dissertations and Theses
Dissertations and Theses. Full text of graduate works added since 1997, along with selected full text for works written prior to 1997 and citations for dissertations and theses dating from 1743-present. A central, open-access repository of research (including dissertations and scholarly articles) by members of the Harvard community.
PDF Harvard Graduate School of Education
Harvard Graduate School of Education . 2022 Doctor of Philosophy in Education Graduates . Frannie Abernethy, Human Development, Learning and Teaching. Thesis: Critical Inquiries Into Language Ideologies and Pedagogies in a Linguistically Diverse, Reform-Minded, Urban Middle School. N. Lesaux, P. Uccelli, M. Rowe.
Dissertation & Defense
The doctoral dissertation is the culmination of scholarly work in graduate school. Every PhD candidate in the Harvard Griffin Graduate School of Arts and Sciences is required to successfully complete and submit a dissertation to qualify for degree conferral. The dissertation must be submitted in one of two formats.
Quantum Information Processing and Quantum ...
Doctoral dissertation, Harvard University Graduate School of Arts and Sciences. Abstract A frontier challenge in quantum science and technology is the construction of scalable quantum systems which can operate in regimes beyond classical simulatability. Such systems can be used as tools for simulating and exploring complex phenomena in quantum ...
Dissertation
The dissertation will be judged according to the highest standards of scholarship, and should be an original contribution to knowledge and understanding of art. The final manuscript must conform to University requirements described in the Supplement The Form of the Doctoral Thesis distributed by the Graduate School of Arts and Sciences.
Harvard PhD Theses in Physics, 2001-
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. ... PhD Thesis Help; Tax Information; 17 Oxford Street Cambridge, MA 02138 (617) 495-2872 phone (617) 495-0416 fax
Browsing FAS Theses and Dissertations by FAS ...
Hap: Uncertainty and the English Novel . Williams, Daniel Benjamin (2015-05-16) This dissertation explores how nineteenth-century novelists envisioned thinking, judging, and acting in conditions of imperfect knowledge. I place novels against historical developments in mathematics, philosophy, psychology, ...
PDF Essays in Financial Economics
Essays in Financial Economics. A dissertation presented by. Christopher Anderson. to. The Committee for the Ph.D. Program in Business Economics. in partial fulﬁllment of the requirements for the degree of Doctor of Philosophy in the subject of Business Economics Harvard University Cambridge, Massachusetts April 2019.
Recent PhD Dissertations
Graduate Alumni Secondary Field in Comparative Literature Founded as a graduate program in 1904 and joining with the undergraduate Literature Concentration in 2007, Harvard's Department of Comparative Literature operates at the crossroads of multilingualism, literary study, and media history.
PDF Essays on Entrepreneurship and Innovation
A dissertation presented by Francisco Queiró to The Committee for the PhD in Business Economics in partial fulﬁllment of the requirements for the degree of Doctor of Philosophy in the subject of Business Economics Harvard University Cambridge, Massachusetts July 2015
HLS Dissertations, Theses, and JD Papers
This is a guide to finding Harvard Law School ("HLS") student-authored works held by the Library and in online collections. This guide covers HLS S.J.D Dissertations, LL.M. papers, J.D. third-year papers, seminar papers, and prize papers. There have been changes in the HLS degree requirements for written work.
PhD Thesis Guide
This PhD Thesis Guide will guide you step-by-step through the thesis process, from your initial letter of intent to submission of the final document. All associated forms are conveniently consolidated in the section at the end. ... The research advisor is chosen by the student and must be a faculty member of MIT* or Harvard University and needs ...
Graduate Profile: Frank J. Barrett, MDiv '24
harvard divinity school 45 Francis Avenue, Cambridge, Massachusetts 02138 Harvard Divinity School is a nonsectarian school of religious and theological studies that educates students both in the pursuit of the academic study of religion and in preparation for leadership in religious, governmental, and a wide range of service organizations.
So how do you track spread of disease? By the numbers
At Harvard, he designed an interactive "subway map" depicting a viral outbreak. As a member of the Sabeti lab, Specht taught an infectious disease modeling course to master's and Ph.D. students at University of Sierra Leone last summer. His outbreak analysis tool is also now being used in an ongoing study of Lassa fever in that region.
The Class of 2024 graduate profiles
Harvard Graduate School of Design ... Harvard University Herbaria Mineralogical and Geological Museum ... Isabella's senior thesis screenplay, a genre-bending family drama full of magical realism, centers the issues of missing and murdered Indigenous women and girls, and two-spirit people. ...
Senior concentrator Jorge Ruiz awarded DRCLAS thesis prize
The David Rockefeller Center for Latin American Studies (DRCLAS) has awarded senior concentrator Jorge Ruiz the James R. and Isabel D. Hammond Thesis Prize on Spanish-speaking Latin American Studies for his thesis, Old Parties and New Cleavages: Puerto Rico's Emerging Multi-Party System. His thesis centered on the 2020 election, which saw five parties gain legislative representation - a...