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József Vass | ||
Andrijana Burazin | ||
Nancy Soontiens | ||
Amenda Chow | ||
Rasha Al Jamal | ||
Wentao Liu | | |
Minghua Lin | ||
Killian Miller |
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Rahul Rahul | ||
Ruibin Qin | ||
Dominique Brunet | ||
Yasunori Aoki | ||
Easwar Magesan | ||
Christopher Ferrie | ||
Dhanaraja Kasinathan | ||
Wai Man NG | ||
Matthew Johnston |
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Raluca Jessop | ||
Yufang Hao | ||
Mohamad Alwan | ||
Yanwei Wang | ||
Christopher Subich | ||
Timothy Rees | ||
Volodymyr Gerasik |
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Jun Liu |
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Kathleen Wilkie |
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Sean Speziale |
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Nataliya Portman |
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Rudy Gunawan | ||
Gibin George Powathil | ||
Matthew Calder |
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Gregory Mayer | ||
Cedric Beny | ||
Lijun Wang | ||
Kahrizsangi Ebrahimi | ||
Robert Martin |
Author | Title | |
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Shannon Kennedy | ||
Alexander Korobov | ||
Qing Wang | ||
Duncan Mowbray | ||
Donald Campbell |
Home > A&S > Math > Math Undergraduate Theses
Theses from 2019 2019.
The Name Tag Problem , Christian Carley
The Hyperreals: Do You Prefer Non-Standard Analysis Over Standard Analysis? , Chloe Munroe
A Convolutional Neural Network Model for Species Classification of Camera Trap Images , Annie Casey
Pythagorean Theorem Area Proofs , Rachel Morley
Euclidian Geometry: Proposed Lesson Plans to Teach Throughout a One Semester Course , Joseph Willert
An Exploration of the Chromatic Polynomial , Amanda Aydelotte
Complementary Coffee Cups , Brandon Sams
Nonlinear Integral Equations and Their Solutions , Caleb Richards
Principles and Analysis of Approximation Techniques , Evan Smith
An Introductory Look at Deterministic Chaos , Kenneth Coiteux
A Brief Encounter with Linear Codes , Brent El-Bakri
Axioms of Set Theory and Equivalents of Axiom of Choice , Farighon Abdul Rahim
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Senior theses.
An undergraduate thesis is a singly-authored mathematics document, usually between 10 and 80 pages, on some topic in mathematics. The thesis is typically a mixture of exposition of known mathematics and an account of your own research.
To write an undergraduate thesis, you need to find a faculty advisor who will sponsor your project. The advisor will almost surely be a faculty member of the pure math department, though on occasion we have accepted theses written by people with applied math advisors. In these rare cases, the theses have been essentially pure math theses.
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2010 | Alex Kruckman | The Ax-Kochen Theorem: An Application of Model Theory to Algebra | Dan Abramovich/Michael Rosen |
2010 | Thomas Lawler | On the Local Structure of Triangulation Graphs | Richard Schwartz |
2011 | Andrew Furnas | Mathematical Modeling of Woven Fabric | Govind Menon |
2011 | Eric Sporkin | Modifying the BLS Signature Scheme Using Isogenies | Reinier Broker |
2011 | Tyler K. Woodruff | Discrepancy Upper Bounds for Certain Families of Rotated Squares | Jill Pipher |
2012 | Nadejda Drenska | Representation of Periodic Data with Fourier Methods and Wavelets | Jill Pipher |
2012 | Zev Chonoles | Hermite's Theorem for Function Fields | Michael Rosen |
2013 | Kevin Casto |
| Richard Schwartz/Govind Menon |
2013 | In-Jee Jeong |
| Richward Schwartz |
2013 | Benjamin LeVeque |
| Jeffrey Hoffstein |
2013 | Lucas Mason-Brown |
| Michael Rosen |
2013 | Yilong Yang |
| Richard Schwartz |
2014 | Nicholas Lourie |
| Richard Schwartz |
2014 | Michael Thaler | Extending Conway's Tiling Groups to a Triangular Lattice with Three Deformations | Richard Schwartz |
2015 | Justin Semonsen | Factorization of Birational Maps | Dan Abramovich |
2015 | Kamron Vachiraprasith | On the Average Order of Arithmetic Functions Over Monic Square-Free Polynomials in Finite Fields | Michael Rosen |
2015 | Francis White |
| Sergei Treil |
2015 | Zijian Yao | Arakelov Theory on Arithmetic Surfaces | Stephen Lichtenbaum |
2016 | Claire Frechette |
| Melody Chan |
2018 | Collin Cademartori |
| Govind Menon |
2018 | Michael Mueller |
| Thomas Goodwillie |
2018 | Lewis Silletto |
| Richard Schwartz |
2020 | Jongyung Lee |
| Dan Abramovich |
2020 | Owen Lynch |
| Yuri Sulyma |
2021 | Alexander Bauman |
| Bena Tshishiku |
2021 | Matei P. Coiculescu |
| Richard Schwartz |
2021 | Henry Talbott |
| Richard Schwartz |
2021 | Nathan Zelesko |
| Melody Chan |
2022 | Griffin Edwards |
| Yuri Sulyma |
2022 | Dichuan David Gao |
| Justin Holmer |
2022 | Jasper Liu |
| Jeffrey Hoffstein |
2024 | Alex Feiner |
| Joseph Silveman |
2024 | Mattie Ji | Some Morse Theoretic Results on Definable Functions | Richard Schwartz |
2024 | Tyler Lane |
| Brendan Hassett |
2024 | Smita Rajan |
| Brendan Hassett |
In 1909 the department awarded its first PhD to Grace M. Bareis , whose dissertation was directed by Professor Harry W. Kuhn. The department began awarding PhD degrees on a regular basis around 1930, when a formal doctoral program was established as a result of the appointment of Tibor Radó as a professor at our department. To date, the department has awarded over 800 PhD degrees. An average of approximately 15 dissertations per year have been added in recent times. Find below a list of PhD theses completed in our program since 1952. (Additionally, search Ohio State at Math Genealogy , which also includes some theses from other OSU departments.)
2024 | Castillo, Nicholas | On Rational Approximations, Resurgence and Riemann-Hilbert Problems | Ovidiu Costin |
2024 | Christopherson, Adam | Weak-type Regularity of the Bergman Projection on Non-smooth Domains | Kenneth Koenig |
2024 | Clause, Nathaniel | New Invariants and Algorithms for Persistence over Posets | Facundo Mémoli |
2024 | Goldman, Katherine | Shephard Groups | Jingyin Huang |
2024 | Genlik, Deniz | Holomorphic Anomaly Equations For [C /Z ] | Hsian-Hua Tseng |
2024 | Gülen, Aziz Burak | Algebraic-Combinatorial Perspectives on Persistence: Functorial Constructions via Möbius Inversion and Galois Connections | Facundo Mémoli |
2024 | Lee, Jonghoo | Brauer Group of Split Toric Variety and Split Toric Scheme | Roy Joshua |
2024 | Lee, Ray | Reaction-Diffusion Equations in Spatial Ecology | King-Yeung Lam |
2024 | Newton, Scott | Representability For Monoid Extensions | Sanjeevi Krishnan |
2024 | Packer, Daniel | Symmetrical Machine Learning | Dustin Mixon |
2024 | Sehgal, Kriti | Dynamics of the Hénon–Heiles System and Generalizing the Sokhotski-Plemelj Formula | Ovidiu Costin |
2024 | Terek Couto, Ivo | The Geometry and Structure of Compact Rank-one ECS Manifolds | Andrzej Derdzinski |
2024 | Xing, Hao | Number Theoretical and Dynamical Properties of Euclidean Lattices and Their Sublattices | Nimish Shah |
2023 | Charparro Sumalave, Gustavo | Lafont, Jean-Francois | |
2023 | Chen, Chen | Anderson, David | |
2023 | Gomez Flores, Mario | Memoli, Facundo | |
2023 | Pan, Amanda | Nguyen, Hoi | |
2023 | Super, Shidhesh | Tseng, Hsian-Hua | |
2023 | Zhou, Ling | Memoli, Facundo | |
2023 | Carr, Matthew | Harper, John | |
2023 | Casey, Ian | Anderson, David | |
2023 | Chen, Quan | Penneys, David | |
2023 | Mishra, Bhawesh | Bergelson, Vitaly | |
2023 | Liu, Baian | Loper, Alan | |
2023 | Su, Wei Hung | Xiu, Dongbin | |
2023 | Wei, Zhining | Luo, Wenzhi | |
2023 | Werf Vander, Andrew | Kahle, Matthew [Paquette, Elliot] | |
2023 | Zhang, Danyu | Gogolyev, Andriy | |
2022 | Ababneh, Ayat | Kahle, Matthew | |
2022 | Ackelsberg, Ethan | Bergelson, Vitaly | |
2022 | Andrejek, Luke | Best, Janet | |
2022 | Call, Benjamin | Thompson, Daniel | |
2022 | Campolongo, Elizabeth | Taylor, Krystal | |
2022 | Chen, Yuhang | Tseng, Hsian-Hua | |
2022 | Dell, Zachary | Penneys, David | |
2022 | Duncan, Paul | Kahle, Matthew | |
2022 | Farhangi, Sohail | Bergelson, Vitaly | |
2022 | Huston, Peter | Penneys, David | |
2022 | Jeon, Minyoung | Anderson, David | |
2022 | Kim, Jimin | Kahle, Matthew | |
2022 | Leung, Wing Hong | Holowinsky, Roman | |
2022 | Martínez Figueroa, Francisco | Kahle, Matthew | |
2022 | Mejia Cordero, Julian | Holowinsky, Roman | |
2022 | Oh, Josiah | Lafont, Jean-Francois | |
2022 | Sun, Jiawei | Xing, Yulong | |
2022 | Tsang, Ling Hei | Katz, Eric | |
2022 | Vargas Bernal, Esteban | Tien, Joseph | |
2022 | Wang, Qingsong | Memoli, Facundo | |
2022 | Wang, Yuda | Koenig, Kenneth | |
2022 | Yan, Pan | Cogdell, James | |
2022 | Yang, Ruize | Xing, Yulong | |
2022 | Zhang, Yilong | Clemens, Herbert | |
2022 | Zhou, Zixu | Dongbin, Xiu | |
2021 | Bainbridge, Gabriel | Krishnan, Sanjeevi | |
2021 | Bello, Jason | Sivakoff, David | |
2021 | Best, Andrew | Bergelson, Vitaly | |
2021 | Bruno, Nick | Loper, Kenneth Alan | |
2021 | Chen, Zhen | Xiu, Dongbin | |
2021 | Clark, Duncan | Harper, John | |
2021 | Clum, Charles | Mixon, Dustin | |
2021 | Ferre Moragues, Andreu | Bergelson, Vitaly | |
2021 | Harper, Matthew | Kerler, Thomas | |
2021 | Hernandez Palomares, Roberto | Penneys, David | |
2021 | Lim, Sunhyuk | Memoli, Facundo | |
2021 | Patel, Dhir | Hiary, Ghaith | |
2021 | Schonsheck, Nikolas | Harper, John | |
2021 | Shah, Aniket | Anderson, David | |
2021 | Wan, Zhengchao | Memoli, Facundo | |
2021 | Wang, Tianyu | Thompson, Daniel | |
2021 | Xie, Yuancheng | Kodama, Yuji | |
2021 | Zelada Cifuentes, Jose Rigoberto Enrique | Bergelson, Vitaly | |
2021 | Zhang, Han | Shah, Nimish | |
2020 | Antoniou, Austin | Loper, Kenneth Alan | |
2020 | Beckwith, Alexander | Luo, Wenzhi | |
2020 | Castillo, Andrew | Koenig, Kenneth | |
2020 | DeBoer, Neil | Carlson, Timothy | |
2020 | Horst, Michael | Johnson, Niles | |
2020 | Kim, Woojin | Memoli, Facundo | |
2020 | Mernik, Luka | McNeal, Jeffery | |
2020 | Ohl, Trent | Miller, Christopher | |
2020 | Osborne, Matthew | Tien, Joseph | |
2020 | Singhal, Kritika | Memoli, Facundo | |
2020 | Wang, Jun | Tseng, Hsian-Hua | |
2020 | Zhang, Runlin | Shah, Nimish | |
2020 | Zhang, Yu | Harper, John | |
2019 | Aggarwal, Keshav | Holowinsky, Roman | |
2019 | Carnovale, Marc | Bergelson, Vitaly | |
2019 | Chowdhury, Samir | Memoli, Facundo | |
2019 | Guo, Sheng | Guan, Bo | |
2019 | Khalil, Osama | Shah, Nimish | |
2019 | Meehan, Sean | Nguyen, Hoi | |
2019 | Okutan, Osman | Memoli, Facundo | |
2019 | Ritchey, Katherine | Kahle, Matthew | |
2019 | Xiong, Jue | McNeal, Jeffery | |
2019 | Xu, Chao | Moscovici, Henri | |
2019 | Yang, Pengyu | Shah, Nimish | |
2019 | Ye, Rongqing | Cogdell, James | |
2018 | Belfanti, Edward Michael | Cogdell, James | |
2018 | Blomquist, Jacobson | Harper, John | |
2018 | Glogic, Irfan | Costin, Ovidiu | |
2018 | Jo, Yeongseong | Cogdell, James | |
2018 | Kennedy, Christopher | Lafont, Jean-Francois | |
2018 | Khan, Gabriel | Zheng, Fangyang | |
2018 | Lin, Yongxiao | Holowinsky, Roman | |
2018 | McGregor, Daniel | Loper, Kenneth Alan | |
2018 | Moore, Daniel | Cogdell, James | |
2018 | Nash, Evan | Kennedy, Gary | |
2018 | Newman, John Andrew | Kahle, Matthew | |
2018 | Nowland, Kevin | Holowinsky, Roman | |
2018 | Renardy, Marissa | Chou, Ching-Shan | |
2018 | Richter, Florian | Bergelson, Vitaly | |
2018 | Sathaye, Bakul | Lafont, Jean-Francois | |
2018 | Shin, Yeonjong | Xiu, Dongbin | |
2018 | Staten, Corey | Johnson, Niles | |
2018 | Wang, Yilong | Kerler, Thomas | |
2018 | Yang, Xige | Xue, Chuan | |
2018 | Yu, Han Baek | Sivakoff, David | |
2017 | Adali, Ali | Tanveer, Saleh | |
2017 | Borland, Alexander | Kerler, Thomas | |
2017 | Dinitz, Thomas | Best, Janet | |
2017 | Glasscock, Daniel | Bergelson, Vitaly | |
2017 | Kim, Tae Eun | Tanveer, Saleh | |
2017 | Liu, Shenhui | Luo, Wenzhi | |
2017 | Parsons, Kyle | Kahle, Matthew | |
2017 | Senay Aras, Betul | Chou, Ching-Shan | |
2017 | Steward, Michael | Loper, Kenneth Alan | |
2017 | Swang, Theodore | Best, Janet | |
2017 | Wang, Yanli | Chou, Ching-Shan | |
2017 | Xia, Bingyu | Anderson, David | |
2017 | You, Fenglong | Tseng, Hsian-Hua | |
2016 | Buenger, Carl | Shah, Nimish | |
2016 | Cervantes, José | Moscovici, Henri | |
2016 | Edholm, Luke | McNeal, Jeffery | |
2016 | Le, Giang | Davis, Michael | |
2016 | Malen, Greg | Kahle, Matthew | |
2016 | Moreira, Joel | Bergelson, Vitaly | |
2016 | Schmidt, Benjamin | Anderson, David | |
2016 | Sun, Weizhou | Chou, Ching-Shan | |
2016 | Wang, Shi | Lafont, Jean-Francois | |
2016 | Zhang, Qing | Cogdell, James | |
2016 | Zheng, Cheng | Shah, Nimish | |
2015 | Baker, Charles | Costin, Ovidiu | |
2015 | Gubkin, Steven | McNeal, Jeffery | |
2015 | Hsu, Ting-Hao | Keyfitz, Barbara | |
2015 | Huang, Jihui | Kodama, Yuji | |
2015 | Lam, Wing Chung | Luo, Wenzhi | |
2015 | Liu, Yang | Moscovici, Henri | |
2015 | Nasca, Angelo | Bergelson, Vitaly | |
2015 | Noble, Laine | Lou, Yuan | |
2015 | Qi, Zhi | Holowinsky, Roman | |
2015 | Robertson, Donald | Bergelson, Vitaly | |
2015 | Sui, Zhenan | Guan, Bo | |
2015 | Talamo, James | Gerlach, Ulrich | |
2015 | Wang, Xiaohui | Golubitsky, Martin | |
2015 | Xia, Xiaoyue | Costin, Ovidiu | |
2015 | Yang, Tao | Moscovici, Henri | |
2015 | Ying, Hao | Keyfitz, Barbara | |
2015 | Zhang, Qing | Luo, Wenzhi | |
2014 | Bosna, Bora | Carlson, Timothy | |
2014 | Christopherson, John | Bergelson, Vitaly | |
2014 | Edgren, Neal | McNeal, Jeffery | |
2014 | Fotis, Samuel | Luo, Wenzhi | |
2014 | Jia, Yuhan | Kodama, Yuji | |
2014 | Kim, Jung Eun | Best, Janet | |
2014 | Miller, Jason | Kennedy, Gary | |
2014 | Nicol, Andrew | Lafont, Jean-Francois | |
2014 | Olmez, Faith | Best, Janet | |
2014 | Ozcakir, Ozge | Tanveer, Saleh | |
2014 | Park, Hyejin | Costin, Ovidiu | |
2014 | Poole, Daniel | Pittel, Boris | |
2014 | Ravindran, Hari | Luo, Wenzhi | |
2014 | Wang, Kun | Lafont, Jean-Francois | |
2014 | Yang, Lei | Shah, Nimish | |
2014 | Ye, Zhilin | Holowinsky, Roman | |
2013 | Acan, Huseyin | Pittel, Boris | |
2013 | Alexander, Samuel | Carlson, Timothy | |
2013 | All, Timothy | Sinnott, Warren | |
2013 | Banerjee, Sayanti | Best, Janet | |
2013 | Chen, Weitao | Chou, Ching-Shan | |
2013 | Estill, Charles | Chmutov, Sergei | |
2013 | George, Jennifer | Kerler, Thomas | |
2013 | Gibbins, Aliska | Davis, Michael W. | |
2013 | Greene, Ryan | Davis, Michael W. | |
2013 | Joecken, Kyle | Lafont, Jean-Francois | |
2013 | Kowalick, Ryan | Lafont, Jean-Francois | |
2013 | Perkins, Rudolph | Goss, David | |
2013 | Peterson, Nicholas | Pittel, Boris | |
2013 | Rosenblatt, Heather | Tanveer, Saleh | |
2013 | Son, Younghwan | Bergelson, Vitaly | |
2013 | Sun, Wei | Guan, Bo | |
2013 | Teh, Wen Chean | Carlson, Timothy | |
2013 | Tychonievich, Michael | Chris Miller | |
2013 | Vutha, Amit | Golubitsky, Martin | |
2013 | Waller, Bradley | Sinnott, Warren | |
2013 | Wiser, Justin | Golubitsky, Martin | |
2013 | Yu, Xun | Clemens, Herbert | |
2012 | Averill, Isabel | Lou, Yuan | |
2012 | Chai, Jingsong | Cogdell, James | |
2012 | Du, Dong | Burghelea, Dan | |
2012 | Easwaran, Hiranmoy | Bergelson, Vitaly | |
2012 | Gard, Andrew | Fangyang Zheng | |
2012 | Kim, Raeyong | Lafont, Jean-Francois | |
2012 | Lynd, Justin | Solomon, Ron | |
2012 | Sequin, Matthew | Kerler, Thomas | |
2012 | Sivaraman, Vaidyanathan | Robertson, G. Neil | |
2012 | Ustian, Alex | Shah, Nimish | |
2011 | Adduci, James | Mityagin, Boris | |
2011 | Danisman, Yusuf | Cogdell, James | |
2011 | Hui, Wing San | Zheng, Fangyang | |
2011 | Ji, Haixia | Feinberg, Martin | |
2011 | McDougal, Robert | Terman, David | |
2011 | Munther, Daniel | Lou, Yuan | |
2011 | Polo, Fabrizio | Bergelson, Vitaly | |
2011 | Ravisankar, Sivaguru | McNeal, Jeffery | |
2011 | Ross, Christopher Jon | Pittel, Boris | |
2011 | Samara, Marko | March, Peter | |
2011 | Valle, Raciel | Leary, Ian | |
2011 | Whitaker, Erica | Cogdell, James | |
2011 | Xie, Zhizhang | Moscovici, Henri | |
2011 | Zhang, Huaijian | Baker, Gregory | |
2011 | Zhang, Lizhi | Costin, Ovidiu | |
2010 | Ahn, Sungwoo | Terman, David | |
2010 | File, Daniel Whitman | Cogdell, James | |
2010 | Huang, Min | Costin, Ovidiu | |
2010 | Im, Jeong Sook | Baker, Gregory | |
2010 | Joshi, Janhavi | McNeal, Jeffery | |
2010 | Kadyrov, Shirali | Shah, Nimish | |
2010 | Khare, Niraj | Seress, Akos | |
2010 | Kilanowski, Phillip | March, Peter | |
2010 | Kim, Kyung-Mi | Cogdell, James | |
2010 | Lee, Gangyong | Rizvi, S. Tariq | |
2010 | Lim, Changhoon | Guan, Bo | |
2010 | Liu, Yu-Han | Clemens, Herbert | |
2010 | Mance, William | Bergelson, Vitaly | |
2010 | Peng, Na | Edgar, Gerald A. | |
2010 | Su, Shu | Kao, Chiu-Yen | |
2010 | Wang, Jie | Clemens, Herbert | |
2010 | Wang, Ying | Kao, Chiu-Yen | |
2010 | Werner, Nicholas | Loper, Alan | |
2010 | Ye, Ji | Tanveer, Saleh | |
2010 | Zeki, Mustafa | Terman, David | |
2010 | Zeytuncu, Yunus Ergin | McNeal, Jeffery | |
2010 | Zhang, Yanyan | Golubitsky, Martin | |
2009 | Altomare, Christian | Robertson, G. Neil | |
2009 | Bezugly, Andriy | Lou, Yuan | |
2009 | Griesmer, John | Bergelson, Vitaly | |
2009 | Joshi, Badal | Best, Janet | |
2009 | Kurt, Oguz | Robertson, G. Neil | |
2009 | Kwa, Kiam Heong | Gerlach, Ulrich | |
2009 | Li, Lingfei | Zheng, Fangyang | |
2009 | Liu, Sheng-Chi | Luo, Wenzhi | |
2009 | Luo, Guo | Baker, Gregory | |
2009 | McSweeney, John | Pittel, Boris | |
2009 | Mehta, Nishali | Seress, Akos | |
2009 | Pikula, Rafal | Bergelson, Vitaly | |
2009 | Puliyambalath, Naushad | Seress, Akos | |
2009 | Qiu, Zhi | Costin, Ovidiu | |
2009 | Shi, Ronggang | Einsiedler, Manfred | |
2009 | Swartz, Eric | Seress, Akos | |
2009 | Wang, Xueying | Terman, David | |
2009 | Xie, Chao | Baker, Gregory | |
2009 | Young, Justin | Rallis, Stephen | |
2009 | Yu, Yang | Baker, Gregory | |
2009 | Zhao, Peng | Luo, Wenzhi | |
2008 | Arms, Scott | Sinnott, Warren | |
2008 | Ault, Shaun | Fiedorowicz, Z. | |
2008 | Balachandran, Niranjan | Robertson, G. Neil | |
2008 | Hur, Suhkjin | Glover, Henry H. | |
2008 | Kar, Aditi | Chatterji, Indira | |
2008 | Khoury, Michael | Cogdell, James | |
2008 | McClain, Christopher | Robertson, G. Neil | |
2008 | Nikolov, Martin | Flicker, Yuval | |
2008 | Niu, Liang | Seress, Akos | |
2008 | Schnell, Christian | Clemens, Herbert | |
2008 | Xiong, Wei | March, Peter | |
2008 | Xu, Songyun | Clemens, Herbert | |
2008 | Yang, Keyan | Seress, Akos | |
2008 | Yeum, Ji-A | Pittel, Boris | |
2007 | Hambrock, Richard | Lou, Yuan | |
2007 | Hammett, Adam | Pittel, Boris | |
2007 | Lennon, Craig | Pittel, Boris G. | |
2007 | Park, Choongseok | Terman, David | |
2007 | Pavlov, Ronald | Bergelson, Vitaly | |
2007 | Pu, Ming | March, Peter | |
2007 | Qi, Dongwen | Davis, Michael | |
2007 | Schoenecker, Kevin | Wyman, Bostwick F. | |
2007 | Stey, George | McNeal, Jeffery D. | |
2006 | Dimitrov, Youri | Edgar, Gerald A. | |
2006 | Fu, Yun | Baker, Gregory | |
2006 | Guler, Dincer | Zheng, Fangyang | |
2006 | Lee, Seung Youn | March, Peter | |
2006 | McKinley, Scott | March, Peter | |
2006 | Oman, Gregory | Loper, Alan | |
2006 | Pitale, Ameya | Rallis, Steven | |
2006 | Tsoi, Man | Sandstede, B. & Lou, Y | |
2006 | Wang, Hongyuan | Zheng, Fangyang | |
2006 | Xia, Honggang | Luo, Wenzhi | |
2005 | Chan, Ping-Shun | Flicker, Yuval | |
2005 | Ghazaryan, Anna | Sandstede, Bjorn | |
2005 | Guloglu, Ahmet | Luo, Wenzhi | |
2005 | Kane, Abdoul | Terman, David | |
2005 | Kaygun, Atabey | Moscovici, Henri | |
2005 | Kennel, Lauren | McNeal, Jeffery | |
2005 | Manukian, Vahagn | Sandstede, Bjorn | |
2005 | Micu, Eliade Mihai | Robertson, G. Neil | |
2005 | Salminen, Adam | Linckelman, Markus | |
2005 | Wolfe, Adam | Seress, Akos | |
2004 | Antal, Tamas | Moscovici, Henri | |
2004 | Argesanu, George | Wyman, Bostwick F. | |
2004 | Herbig, Anne-Katrin | McNeal, Jeffery D. | |
2004 | Iancu, Aniela Karina | Wyman, Bostwick F. | |
2004 | Liu, Xing | Tanveer, Saleh | |
2004 | Malyushitsky, Sergey | Harada, Koichiro | |
2004 | Otto, Michael | Krötz, Bernhard & Stanton, Robert | |
2004 | Roman, Cosmin | Rizvi, Syed M.Tariq | |
2004 | Wang, Jin | Baker, Gregory | |
2003 | Bell, Robert William, II | Charney, Ruth M. | |
2003 | Boros, Dan | Davis, Michael W. | |
2003 | Golubeva, Natalia | Baker, Gregory R. | |
2003 | Gorodnyk, Oleksandr | Bergelson, Vitaly | |
2003 | Han, Zhongxian | Wyman, Bostwick F. | |
2003 | Lladser, Manuel | Pemantle, Robin A. | |
2003 | Mendris, Robert | Nemethi, Andras | |
2003 | Wang, Chian-Jen | Rallis, Stephen | |
2003 | Yablonsky, Eugene | Dynin, Alexander | |
2003 | Zhou, Xiangqian | Robertson, G. Neil | |
2002 | Aydin, Nuh | Ray-Chaudhuri, Dijen K. | |
2002 | Barbacioru, Catalin | Sinnott, Warren M. | |
2002 | Conrad, Eric | Milne, Stephen C. | |
2002 | Craciun, Gheorghe | Feinberg, Martin Robert | |
2002 | Fiala, Nick | Seress, Akos | |
2002 | Hu, Xiaodong | Moscovici, Henri | |
2002 | Jalics, Jozsi Zoltan | Terman, David | |
2002 | McCoy, Ted | Edgar, Gerald A. | |
2002 | Sachelarie, Vlad | Wyman, Bostwick F. | |
2002 | Sherer, Scott | Scott, James | |
2002 | Slone, Rodney | Lee, R. | |
2001 | Beli, Constantin | Hsia, John S. | |
2001 | Breitenbucher, Jon | Milne, Stephen C. | |
2001 | Korchagina, Inna | Solomon, Ronald | |
2001 | Liu, Youjian | Fitz, Michael | |
2001 | Marchenko, Vadim | Terman, David | |
2001 | Pham, Lan | Baker, Gregory R. | |
2001 | Pohlman, Matthew | Baker, Gregory R. | |
2001 | Stacklin, Thomas | Pittel, Boris G. | |
2001 | Xie, Xuming | Tanveer, Saleh | |
2000 | Arenas-Carmona, Luis | Hsia, John S. | |
2000 | Barbu, Adrian | Ash, Avner D. | |
2000 | Butkevich, Sergey | Bergelson, Vitaly | |
2000 | Cashy, John | Glover, Henry H. | |
2000 | Gonciulea, Constantin | Davis, Michael W. | |
2000 | Gries, Daniel | Mislin, Guido | |
2000 | Iskhakov, Igor | Davis, Michael W. | |
2000 | Nabavi, Ali | Ray-Chaudhuri, Dijen K. | |
2000 | Pavlov, Savva | Rallis, Stephen | |
2000 | Qian, Jin | Ray-Chaudhuri, Dijen K. | |
2000 | Ralfs, Arthur | Terman, David | |
2000 | Ramsey, John | Oz, Hayrani A. | |
2000 | Xie, Xuming | Tanveer, Saleh | |
2000 | Zhang, Shaobo | Myung, In Jae | |
1999 | Blackford, Jason | Ray-Chaudhuri, Dijen K. | |
1999 | Bucicovschi, Bogdan | Burghelea, Dan | |
1999 | Genyuk, Julia | Edgar, Gerald A. | |
1999 | Gorokhovsky, Alexander | Moscovici, Henri | |
1999 | Bondareva Humphreys, Natalia | Baishanski, Bogdan M. | |
1999 | Liu, Kan | Ray-Chaudhuri, Dijen K. & Sehgal, Surinder K. | |
1999 | Mihalas, Stelian | Robertson, G. Neil | |
1999 | Möller, Torsten | Crawfis, Roger | |
1999 | Nigussie, Yared | Robertson, G. Neil | |
1999 | Ragozzine, Charles | Ferrar, Joseph C. | |
1999 | Roberts, Joel Philip | Silverberg, Alice | |
1999 | Siap, Irfan | Ray-Chaudhuri, Dijen K. | |
1999 | Snyder, Brian | Goss, David | |
1999 | Szilárd, Ágnes | Nemethi, Andras | |
1999 | Yang, Zifeng | Goss, David | |
1999 | Yeh, Jieh-Shan | Ray Chaudhduri, Dijen | |
1999 | YU, HOSEOG | Rubin, Karl C. | |
1999 | ZHANG, LINGHAI | Terman, David | |
1998 | Golds, Jeffrey | Edgar, Gerald A. | |
1998 | Hartenstein, Margaret | Solomon, Ronald | |
1998 | HLAVACEK, JAN | Baishanski, Bogdan M. | |
1998 | Jalics, Miklos | Baker, Gregory R. | |
1998 | LARICK, PAUL | Bergelson, Vitaly | |
1998 | Lu, Qin | Mislin, Guido | |
1998 | MAKAROV, MIHAIL | Kappeler, Thomas | |
1998 | Mohácsy, Hedvig | Ray-Chaudhuri, Dijen K. | |
1998 | Renedo, Marco | Bergelson, Vitaly | |
1998 | WAYAND, LEE | Davis, Michael W. | |
1998 | ZENKOV, DMITRY | BLOCH, ANTHONY M. | |
19971997 | BALTEANU, CORNEL | FIEDOROWICZ, ZBIGNIEW | |
1997 | CHEN, YU QING | Glover, Henry H. | |
1997 | GALUP, LUIS | Baishanski, Bogdan M. | |
1997 | HLAVACEK, AMY | HUNEKE, J. PHILIP | |
1997 | Hofmann, Glenn | Nagaraja, H.N. | |
1997 | JOHNSON, BRYAN | Baishanski, Bogdan M. | |
1997 | Kim, Yongdai | Baatoszynski, Robert | |
1997 | Koperski, Jeffrey | Batterman, Robert | |
1997 | LEININGER, VERNE | Milne, Stephen C. | |
1997 | MAJOR, EMERY | Burghelea, Dan | |
1997 | NANCE, ANTHONY | DOWLING, THOMAS A. | |
1997 | STADLER, JONATHAN | Milne, Stephen C. | |
1997 | VOMPE, DMITRY | Baker, Gregory | |
1997 | WEISHAAR, ROBERT | Pittel, Boris | |
1997 | YAO, LIHUA | March, Peter | |
1997 | Ye, Jian | Kodama, Yuji | |
1997 | ZINOVIEV, DMITRII | Flicker, Yuval | |
1996 | Altobelli, Joseph | Charney, R. | |
1996 | BABIKOV, MARK | Ferrar, Joseph C. | |
1996 | BAGDASAROV, SERGEY | Mityagin, Boris | |
1996 | Carlson, Charles | Forest, M. Gregory | |
1996 | Chan, Shing-Wai | Moscovici, Henri | |
1996 | Chan, Wai Kiu | Hsia, John | |
1996 | CHERN, SHIKAI | Moscovici, Henri | |
1996 | Das, Manabendra | Edgar, Gerald A. | |
1996 | Degenhardt, Sheldon | Milne, Stephen C. | |
1996 | HUNT, DONALD | CARROLL, FRANCIS W. | |
1996 | JEON, INTAE | March, Peter | |
1996 | Lam, Ching Hung | Harada, Koichiro | |
1996 | Lame, John | Sinnott, Warren | |
1996 | MAHARRY, JOHN | Robertson, G. Neil | |
1996 | Morje, Prabhav | Harada, Koichiro | |
1996 | MULLINS, EDMOND N., JR | Edgar, Gerald A. | |
1996 | POPESCU, CRISTIAN | Rubin, Karl C. | |
1996 | POUFINAS, THOMAS | Mityagin, Boris | |
1996 | ROSENBERG, STEVEN | Sinnott, Warren | |
1996 | SHALACK, JULIE | Ash, Avner D. | |
1996 | SZABO, TIBOR | Seress, Akos | |
1996 | Tsolomitis, Antonis | Davis, W. | |
1996 | Tungol, Ronald | Pittel, Boris G. | |
1996 | Wong, ChiKun | Charney, Ruth | |
1996 | XIAO, YIMIN | TALAGRAND, MICHEL | |
1996 | ZHOU, JIANPING | Wyman, Bostwick F. | |
1995 | Bhatnagar, Gaurav | Milne, Stephen C. | |
1995 | Dixit-Radiya, Vibha | Panda, Dhabaleswar K. | |
1995 | Gupta, Sandeep | Huang, C.H. | |
1995 | Joung, Haewon | Nevai, Paul | |
1995 | Kessar, Radha | Solomon, Ronald | |
1995 | Lee, Cary | Dougherty, Randall | |
1995 | Lee, Yoonweon | Burghelea, Dan | |
1995 | Marcsik, John | Burghelea, Dan | |
1995 | McCutcheon, Randall | Bergelson, Vitaly | |
1995 | Oh, Jangheon | Sinnott, Warren | |
1995 | Peery, Thaddeus | Ozbay, Hitay | |
1995 | Pinter, Ferenc | Nevai, Paul | |
1995 | Snell, Michael | Baishanski, B. | |
1995 | Varga, Jozsef | Mityagin, Boris | |
1995 | Wai, Hon-kit | Burghelea, Dan | |
1995 | Weisz, Iván | Seress, Akos | |
1995 | Wu, Kuo-Chi | Kodama, Y. | |
1995 | Xiang, Qing | Ray-Chaudhuri, D.K. | |
1995 | Xu, Mingzhi | Rubin, Karl | |
1995 | Zhang, Jianxiang | Baishanski, Bogdan | |
1994 | Ashokkumar, C. R. | Yedavalli, Rama K. | |
1994 | Dharmatilake, Jack | Robertson, G. Neil | |
1994 | Giust, Steven | Wyman, Bostwick F. | |
1994 | Gonzalez-Aviles, Cristian | Rubin, Karl C. | |
1994 | Jiang, Dihua | Rallis, Stephen | |
1994 | Li, Kuo-tung | Rosenblatt, Joseph | |
1994 | Manjrekar, Rajesh | Ash, Avner | |
1994 | McClure, Mark | Edgar, Gerald A. | |
1994 | Schwartz, Peter | Rosenblatt, Joseph | |
1994 | Shao, You Yu | Hsia, John | |
1994 | Wu, Xiaohong | Dowling, Thomas | |
1994 | Zantout, Rached | Zheng, Yuan F. | |
1993 | Anderson, Michael | Ferrar, J. | |
1993 | Beleznay, F. | Foreman, Matthew | |
1993 | Belhadj, Mohamed | Aldemir, Tunc | |
1993 | Daquila, Richard | Carroll, Francis W. | |
1993 | Elder, Gove | Madan, Manohar L. | |
1993 | Huang, Xiaoming | Bojanic, Ranko | |
1993 | Lee, Euiwoo | Terman, David | |
1993 | Leou, Ying-Tyug | Friedman, Harvey | |
1993 | Ouyang, Mingqing | Neumann, Walter | |
1993 | Sofer, Adriana S. | Ash, Avner | |
1993 | Szabó, Tamás | Divis, Zita | |
1993 | Tang, Shu-Leung | Gold, Robert | |
1993 | Yang, Tzu-Yi | Glover, Henry H. | |
1993 | Zha, Xiaoya | Dowling, Thomas | |
1993 | Zhu, Tianbao | Ray-Chaudhuri, D.K. | |
1992 | Ahmed, Shamim | Klein, Charles A. | |
1992 | Bishop, Gregory | Carlson, Timothy | |
1992 | Cao, Jianzhong | Forest, M.G. | |
1992 | Gethner, Ellen | Parson, L. Alayne | |
1992 | Haaland, Inger | Bergelson, Vitaly | |
1992 | Icaza Perez, Maria | Hsia, John S. | |
1992 | Kane, Stephen | Mityagin, Boris | |
1992 | Kim, Jeongjin | Ray-Chaudhuri, D.K. | |
1992 | Krandick, Werner | Collins, George E. | |
1992 | Lang, Cheng-Lien | Terman, David | |
1992 | Leclerc, Anthony | Moore, Ramon E. | |
1992 | Ling, Tianwen | Friedman, Harvey M. | |
1992 | Liu, Kecheng | Foreman, Matthew | |
1992 | Narayani, Lakshmi | Ray-Chaudhuri, D.K. | |
1992 | Raqab, Mohammad | Nagaraja, Haikady N. | |
1992 | Reyes, Noli | Baishanski, B. | |
1992 | Shaw, Hong-Min | Ray-Chaudhuri, D.K. | |
1992 | Sheu, Shin-pyng | Forest, M. Gregory | |
1992 | Spieler, Barry | Charney, Ruth M. | |
1992 | Zhao, Yue | Robertson, Neil | |
1991 | Banaszak, Grzegorz | Sinnott, Warren | |
1991 | Blanchard, John | Mityagin, Boris | |
1991 | Brozovic, Douglas | Solomon, Ronald | |
1991 | Craighead, Robert | Carroll, F. W. | |
1991 | Dale, Wilbur Nolan | Smith, Malcolm C. | |
1991 | Donahue, Michael | Mityagin, Boris | |
1991 | Johnson, Jeremy | Collins, George E. | |
1991 | Manoharan, Palanivel | Burghelea, Dan | |
1991 | Mariasoosai, William | Baishanski, Bogdan M. | |
1991 | Némethi, András | Moscovici, Henri | |
1991 | O'Ryan Lermanda, Manuel | Shapiro, Daniel | |
1991 | Prabaharan, Kanagarajah | Sucheston, L. | |
1991 | Reinhold-Larsson, Karin B. | Rosenblatt, Joseph | |
1991 | Voon, Shu-Nan | Glover, Henry | |
1991 | Wang, Qi | Forest, M.G. | |
1991 | Xiong, Chuyu | Overman, Edward | |
1991 | Yan, Zhongde | Edgar, Gerald | |
1990 | Chen, Lin | Yesha, Y. | |
1990 | Chilakamarri, Kiran Babu | Robertson, Neil | |
1990 | Druschel, Kimberly | Davis, M. | |
1990 | Forrest, Alan Hunter | Bergelson, Vitaly | |
1990 | Gajda, Wojciech | Davis, M.W. | |
1990 | Iwakata, Yasushi | Dowling, Thomas | |
1990 | Lari-Lavassani, Ali | Lu, Yung-Chen | |
1990 | Lee, Doobum | Burghelea, Dan | |
1990 | Lovri, Miroslav | Derdzinski, A. | |
1990 | Prieto-Cox, Juan | Hsia, John S. | |
1990 | Rodriguez Villegas, Fernando | Sinnott, Warren | |
1990 | Song, Yongjin | Fiedorowics, Zbigniew | |
1990 | Szabo, Laszlo | Sucheston, Louis | |
1990 | Tam, Laying | Baishanski, Louis | |
1990 | Xia, Yining | Glover, Henry H. | |
1990 | Yu, Jenn-Hwa | Edgar, Gerald | |
1989 | Andaloro, Paul | Ferrar, Joseph C. | |
1989 | Anghel, Nicolae | Moscovici, Henri | |
1989 | Bajnok, Bela | Bannai, Eiichi | |
1989 | Bunge, John | Nagaraja, H.N. | |
1989 | Chen, Hua | Burghelea, Dan | |
1989 | Kwok, Wing Man | Bannai, Eiichi | |
1989 | Munemasa, Akihiro | Bannai, Eiichi | |
1989 | Oporowski, Bogdan | Robertson, Neil | |
1989 | Peric, Goran | Moscovici, Henri | |
1989 | Schram, Erin | Ray-Chaudhuri, D.K. | |
1989 | Wierdl, Mate | Bergelson, Vitaly | |
1989 | Wu, Fangbing | Moscovici, Henri | |
1988 | Bannai, Etsuko | Hsia, John Sollion | |
1988 | Fiedler, Joseph | Huneke, John P. | |
1988 | Ghanaat, Patrick | Ruh, Ernst Alfred | |
1988 | Jha, Shing-Whu | Nevai, Paul | |
1988 | Kim, Jae Moon | Gold, Robert | |
1988 | Moussong, Gabor | Davis, Michael W. | |
1988 | Reeder, Mark Stephen | Avner, Dolnick Ash | |
1988 | Rzedowski Calderón, Martha | Madan, Manohar Lal | |
1988 | Villa-Salvador, Gabriel | Madan, Manohar Lal | |
1988 | Wimelaratna, Ramasinghege | Davis, William Jay | |
1987 | Ali, Sayel | Baishanski, B.M. | |
1987 | Han, Sang-Geun | Sinnott, Warren | |
1987 | Lang, Mong-lung | Bannai, Eiichi | |
1987 | Ray, Phillip | Ferrar, J.C. | |
1987 | Song, Sung Yell | Bannai, Eiichi | |
1987 | Vitray, Richard | Robertson, Neil | |
1986 | Batra, Sharat | Wigen, Philip E. | |
1986 | Bezdek, Andras | Glover, Henry | |
1986 | Char, Shobha | Burghelea, Dan | |
1986 | Lee, Jong-Eao | Carroll, Francis | |
1986 | Manickam, Nachimuthu | Bannai, Eiichi | |
1986 | Miklós, Dezsö | Ray-Chaudhuri, D.K. | |
1986 | Sali, Attila | Bannai, Eiichi | |
1986 | Weaver, Robert | Robertson, Neil | |
1985 | Bauldry, William | Nevai, Paul | |
1985 | Brackebusch, Ruth | Edgar, Gerald A. | |
1985 | Burdick, Bruce | Huneke, Philip | |
1985 | Butts, Eric | Davis, William | |
1985 | Childress, Nancy | Gold, Robert | |
1985 | Cho, Chong-Man | Johnson, William B. | |
1985 | Choi, Sul-Young | Bannai, Eiichi | |
1985 | Guan, Puhua | Ash, Avner | |
1985 | Huang, Tayuan | Bannai, Eiichi | |
1985 | Kim, Myung-Hwan | Hsia, John S. | |
1985 | Narang, Kamal | Harada, K. | |
1985 | Seress, Akos | Ray-Chaudhuri, D.K. | |
1985 | Singer, Phyllis | Allen, Harry P. | |
1985 | Song, Hi Ja | Davis, William J. | |
1984 | Brink, James | Gold, Robert | |
1984 | Chidume, Charles | Davis, William J. | |
1984 | Frangos, Nicholas | Sucheston, Louis | |
1984 | Grove, John W., (John Whitaker) | Davis, William | |
1984 | Hemmeter, Joseph | Bannai, Eiichi | |
1984 | Hong, Yiming | Bannai, Eiichi | |
1984 | Ku, Jong-Min | Ferrar, Joseph C. | |
1984 | Sheen, Rong-Chyu | Nevai, Paul | |
1984 | Wajima, Masayuki | Harada, Koichiro | |
1984 | Woldar, Andrew | Solomon, Ronald | |
1982 | Bonan, Stanford | Nevai, Paul | |
1982 | Carothers, Neal | Davis, William | |
1982 | Cheng, Fuhua | Baishanski, Bogdan | |
1982 | Costello, Patrick | Hsia, John S. | |
1982 | D'Mello, Joseph | Cronheim, Arno | |
1982 | Gross, Francis | Ksienski, Aharon A. | |
1982 | Johnson, Sandra | Glover, Henry H. | |
1982 | Kirschenbaum, Marc | Glover, Henry H. | |
1982 | Mahoney, Carolyn | Dowling, Thomas A. | |
1982 | Oprea, John | Burghelea, Dan | |
1982 | Shan, Chin-Chi | Baishanski, Bogdan | |
1982 | Shih, Ching-Hsien | Robertson, Neil | |
1981 | Benham, James | Hsia, John S. | |
1981 | Brickell, Ernest | Ray-Chaudhuri, D.K. | |
1981 | DeLaurentis, John | Edgar, Gerald | |
1981 | Flinn, Patrick | Davis, William | |
1981 | Moon, Aeryung | Bannai, Eiichi | |
1981 | Young, Elmer | Glover, Henry | |
1979 | Gearhart, Thomas | Levine, Norman | |
1979 | Huffman, William | Drobot, S. | |
1979 | Kahn, Jeffry | Ray-Chaudhuri, D.K. | |
1979 | Lichtin, Benjamin | Lu, Yung-Chen | |
1979 | Roth, Robert | Ray-Chaudhuri, D.K. | |
1979 | Valentini, Robert | Cronheim, Arno | |
1979 | Woltermann, Michael | Sehgal, Surinder K. | |
1978 | Anacker, Steven | Dowling, T.A. | |
1978 | Brewster, Stephen | Homer, William | |
1978 | Decker, Richard | Glover, Henry | |
1978 | Ford, David | Zassenhaus, Hans | |
1978 | Ko, Hai-Ping | Dowling, T.A. | |
1978 | Lichtin, Benjamin | Lu, Yung Chen | |
1978 | Lovett, Jane | Ferrar, Joseph | |
1978 | Wang, Shinmin | Dowling, T.A. | |
1978 | Yang, Liow-Jing | Woods, Alan C. | |
1977 | Barnes, Martha | Wilson, Richard | |
1977 | LeFever, John | Ray-Chaudhuri, D.K. | |
1977 | Liu, Chung-Der | Baishanski, Bogdan | |
1977 | Nemzer, Daniel | Ray-Chaudhuri, D.K. | |
1976 | Alspach, Dale | Johnson, William B. | |
1976 | Astbury, Kenneth | Sucheston, L. | |
1976 | Catlin, Paul Allen | Dowling, T.A. | |
1976 | Chakravati, Kamal | Dowling, T.A. | |
1976 | Chang, Kuang-I | Dowling, T.A. | |
1976 | Ching, Wai-Sin | Bostwick, F. Wyman | |
1976 | Denig, William | Dowling, T.A. | |
1976 | Gbur, Mary Flahive | Divis, Bohuslav | |
1976 | Markot, Robert | Bannai, Eiichi | |
1976 | Pal, Sat | Leitzel, James R.C. | |
1976 | Yoder, Jeffery | Mickle, Earl J. | |
1976 | Baker, Ronald | Dowling, T.A. | |
1975 | Burell, Benjamin | Zibler, Joseph A. | |
1975 | Chan, Agnes | Ray-Chaudhuri, D.K. | |
1975 | Dennis, John | Mickle, Earl J. | |
1975 | Donaldson, John | Zassenhaus, Hans | |
1975 | Dor, Leonard | Johnson, William B. | |
1975 | Earnest, Andrew | Hsia, John S. | |
1975 | Johnson, Robert | Drobot, Stefan | |
1975 | Madden, Daniel | Madan, Manohar L. | |
1975 | Ploeger, Bernard | Baishanski, Bogdan | |
1975 | Scrandis, Ann | Zassenhaus, Hans | |
1975 | Sze, Michael Ming Chih | Sucheston, L. | |
1975 | Trushin, David | Allen, Harry P. | |
1975 | Wang, Chin San | Robertson, Neil | |
1974 | Assa, Steven | Harada, Koichiro | |
1974 | Dunham, William | Huneke, Philip | |
1974 | Howell, Russell | Bojanic, Ranko | |
1974 | Kuntz, Amy | Sucheston, Louis | |
1974 | Mayer, David | Brown, Harold | |
1974 | O'Neill, Larkin | Huneke, Philip | |
1974 | Higgins, Rada | On The Asymptotic Behavior Of Certain Sequences | Bojanic, Ranko |
1973 | Bieberich, Richard | Baishanski, Bogdan | |
1973 | Coon, Lawrence | Riner, John W. | |
1973 | Hansen, Henry | Woods, Alan | |
1973 | Klippert, John | Eustice, Dan | |
1973 | Mertens, Robert | Ross, Arnold E. | |
1973 | McLean, Jeffery | Yaqub, Jill C.D.S. | |
1973 | Peterson, Roger | Hsia, John S. | |
1973 | Sommers, Dean | Crosswhite, F. Joe | |
1973 | Sprague, Alan | Ray-Chaudhuri, D.K. | |
1973 | Ulrey, Michael | Ahlswede, Rudolf | |
1973 | Vijayan, Kulakkatt | Ray-Chaudhuri, D.K. | |
1973 | Wang, Paul Tiing | Kerr, Douglas S. | |
1973 | Winkler, William | Sucheston, L. | |
1973 | Wong, Kwok Chi | Brown, Robert | |
1972 | Agashe, Pushpa | Levine, N. | |
1972 | Delany, Matthew | Zassenhaus, Hans | |
1972 | Ekong, Victor | Bojanic, R. | |
1972 | Hovis, Robert | Levine, N. | |
1972 | Jurick, Robert | Trimble, Harold C. | |
1972 | Lee, You-Hwa | Bojanic, R. | |
1972 | Merklen, Héctor | Zassenhaus, Hans | |
1972 | Molnar, Edward | Mislin, Guido | |
1972 | Pomaredo, Rolando | Janko, Z. | |
1972 | Raber, Neal | Cronheim, A. | |
1972 | Smith, Fredrick | Janko, Z. | |
1972 | Zahroon, Fike | Trimble, Harold | |
1971 | Datta, Biswa | Ray-Chaudhuri, D.K. | |
1971 | Nelson Engle, Jessie | Mickle, E. | |
1971 | Falk, Daniel | Zassenhaus, Hans | |
1971 | Heiberg, Charles | Baishanski, Bogdan | |
1971 | Milles, Stephen | Trimble, Harold | |
1971 | McClure, Clair | Trimble, Harold | |
1971 | Karamanoukian, Zaven | Woods, A.C. | |
1971 | Lundgren, J. Richard | Janko, Z. | |
1971 | Pujara, Lakhpat | Dean, David | |
1971 | Richard, Howard | Trimble, Harold | |
1971 | Rosenblum, Lawrence | Woods, Alan | |
1971 | Sehnert, James | Woods, Alan | |
1971 | St. Andre, Richard | Levine, N. | |
1971 | Terrell, Thomas | Kregnel, U. | |
1971 | Veith, Wilbur | Carroll, F.W. | |
1970 | Anderson, Osiefield | Trimble, Harold | |
1970 | Biddle, James | Cronheim, A. | |
1970 | Dudgeon, Charles | Whitney, D. Random | |
1970 | Gemma, James | Ahlswede, Rudolf | |
1970 | Hanigan, Francis | Uotila, Urho A. | |
1970 | Hill, David | Dean, David | |
1970 | Hogan, Guy | Cronheim, A. | |
1970 | Johnson, Charles | Zassenhaus, Hans | |
1970 | Klein, Albert | Levine, N. | |
1970 | Logan, J. David | Drobot, S. | |
1970 | McFarland, Robert | Zassenhaus, Hans | |
1970 | Sachdeva, Usha | Sucheston, Louis | |
1970 | Stager, William | Levine, Norman | |
1970 | Sonn, Jack | Zassenhaus, Hans | |
1970 | Yanosko, Kenneth | Janko, Z. | |
1969 | Fong, Humphrey Sek-Ching | Sucheston, L. | |
1969 | Haines, David | Levine, Norman | |
1969 | Hale, Douglas | Davis, William | |
1969 | Hern, Thomas | Shapiro, J.M. | |
1969 | Heuvers, Konrad | Drobot, Stefan | |
1969 | Hull, David | Shapiro, J.M. | |
1969 | Kimble, Kenneth | Drobpt, Stefan | |
1969 | Krier, Nicholas | Yaqub, J. | |
1969 | Kunes, Laurence | Shapiro, J.M. | |
1969 | Liang, Joseph Jen-Yin | Zassenhaus, Hans | |
1969 | Mathis, Robert | Saltzer, Charles | |
1969 | Meeks, Joseph | Mickle, E. | |
1969 | Scott, Frank | Levine, Norman | |
1969 | Wee, Leben Li | Levine, Norman | |
1969 | Wilson, R. M. | Ray-Chaudhuri, D.K. | |
1968 | Block, Henry | Shapiro, J.M. | |
1968 | Bonar, Daniel | Carroll, F.W. | |
1968 | Brown, John | Kapp, Wolfgang | |
1968 | Girard, Dennis | Baishanski, Bogdan | |
1968 | Keck, David | Reichelderfer, P.V. | |
1968 | Koehl, Frederick | Carroll, F.W. | |
1968 | Konvisser, Marc | Kappe, Wolfgang | |
1968 | Lu, Yu-Mei Yu | Trimble, Harold C. | |
1968 | Nachman, Louis | Levine, N. | |
1968 | Parker, Donald | Kappe, Wolfgang | |
1968 | Phillips, Paul | Trimble, Harold C. | |
1968 | Plybon, Benjamin | Drobot, Stefan | |
1968 | Pu, Huay-min Huoh | Helsel, R.G. | |
1968 | Queen, Clifford | Zassenhaus, Hans | |
1968 | Riggle, Timothy | Trimble, Harold C. | |
1968 | Shook, Thurston | Levine, N. | |
1968 | Sternbach, Leonard | Dean, David W. | |
1968 | Whitford, Leslie | Baishanski, Bogdan | |
1967 | Caufield, Patrick | Levine, N. | |
1967 | DeVore, Ronald | Bojanic, R. | |
1967 | Kimbleton, Stephen | Shapiro, J.M. | |
1967 | Klimko, Eugene | Sucheston, Louis | |
1967 | Klimko, Lawrence | Sucheston, Louis | |
1967 | Olson, John | Zassenhaus, Hans | |
1966 | Brown, Harold | Zassenhaus, Hans | |
1966 | Caid, Larry | Davis, William | |
1966 | Deever, David | Albian, Alexander | |
1966 | Holden, Lyman | Trimble, Harold C. | |
1966 | Hopkins, Mark | Mickle, E. | |
1966 | Nikolai, Paul | Saltzer, Charles | |
1966 | Steinlage, Ralph | Mickle, E. | |
1965 | Aggarwal, Satish | Bambah, R.P. | |
1965 | Breiter, Thomas | Levine, N. | |
1965 | Boonyasombut, Virool | Shapiro, J.M. | |
1965 | Dumir, V. C. | Bambah, R.P | |
1965 | Frazier, Thyrsa | Reichelderfer, Paul V. | |
1965 | Hans-Gill, R. J. | Bamba, R.P. | |
1965 | Nelson, Larry | Rado, T. | |
1965 | Randels, James | Rado, T. | |
1964 | Anderson, Charles | Kleinfeld, E. | |
1964 | Brabenec, Robert | Helse, R.G. | |
1964 | Brooks, James | Reichelderfer, Paul V. | |
1964 | Chaney, Robin | Reichelderfer, Paul V. | |
1964 | Houghton, Charles | Mickle, E. | |
1964 | Maxwell, John | Reichelderfer, Paul V. | |
1964 | Pu, Hwang Wen | Helsel, R.G. | |
1963 | Coppage, William | Whitney, D.R. | |
1963 | Laffer, Walter | Mann, Henry B. | |
1963 | Lin, Shen | Rado, T. | |
1963 | McWorter, William | Abian, Alexander | |
1963 | Norris, Donald | Reichelderfer, Paul V. | |
1963 | Outcalt, David | Whitney, D.R. | |
1963 | Schaefer, Donald | Mickle, E. | |
1963 | Staley, David | Levine, N. | |
1962 | Dixon, Robert | Tull, J.P. | |
1962 | Duemmel, James | Reichelderfer, Paul V. | |
1962 | Hardy, F. Lane | Kleinfeld, E. | |
1962 | Robison, Donald | Whitney, R. | |
1962 | Ryeburn, David | Reichelderfer, Paul V. | |
1961 | Johnsen, Eugene | Ryser, H.J. | |
1961 | Leetch, James | Helsel, R.G. | |
1961 | Martino, Joseph | Whitney, D.R. | |
1960 | Craft, George | Reichelderfer, Paul V. | |
1960 | Weiler, Fred | Reichelderfer, Paul V. | |
1960 | Willke, Thomas | Whitney, D.R. | |
1959 | Maneri, Carl | Kleinfeld, Erwin | |
1959 | McCulloh, Leon | Mann, Henry B. | |
1959 | Menon, Manavazhi | Mann, Henry B. | |
1959 | Nemitz, William | Mickle, Earl | |
1958 | Haber, Robert | Ryser, H.J. | |
1958 | Silverman, Robert | Whitney, D.R. | |
1958 | Thompson, Robert | Reichelderfer, Paul V. | |
1958 | Tinsley, Marion | Ryser, H.J. | |
1958 | Parker, Ernest | Hall, Marshall | |
1955 | Lin, Chio-Shih | Mann, Henry B. | |
1955 | Parrish, Herbert | Helsel, R.G. | |
1954 | Crowley, Thomas | Helsel, R.G. | |
1954 | Fadell, Albert | Rado, T. | |
1954 | Neugebauer, Christoph | Mickle, E. | |
1954 | Zemlin, Richard | Hall, Marshall | |
1953 | Butts, Hubert | Mann, Henry B. | |
1953 | Dean, Richard | Hall, Marshall | |
1953 | Edwards, Miles | Mickle, E. | |
1953 | Evans, John | Lazar, Nathan | |
1953 | Hoy, Walter | Mann, Henry | |
1953 | Moranda Paul | Mann, Henry | |
1953 | Sterbenz, Pat | Reichelderfer, Paul V. | |
1952 | Fadell, Edward | Reichelderfer, Paul V. | |
1952 | Levine, Norman | Absolutely Continuous Product Transformations Of The Plane | Helsel, R.G |
1952 | Martin, E. Wainwright | Hall, Marshall | |
1952 | Mendenhall, Robert | Helsel, R.G. | |
1952 | Myers, William | Reichelderfer, Paul. V | |
1952 | Tinnappel, Harold | Mickle, E. | |
1951 | Marsaglia, George | Stochastic Processes And Classes Of Random Variables | Mann, Henry |
1950 | Hoyoke, Thomas | An Embedding Problem For Transitive Permutation Groups | Hall, Marshall |
1949 | Whitney, Donald Ransom | A Comparison of the Power of Nonparametric Tests and Tests Based on the Normal Distribution Under Nonnormal Alternatives | Mann, Henry |
1949 | Colquitt, Landon A. | On Paths Of Minimum Flight Time | Bamforth, Frederic |
1947 | Adney, Joseph Elliott | Hall, Marshall | |
1947 | Miser, Hugh | Generalized Conformal Representations of Fréchet Surfaces | Rado, Tibor |
1947 | William, Scott | On Essentially Absolutely Continuous Transformations | Rado, Tibor |
1946 | Woods, Cecil | A Restricted Class of Convex Functions | Rado, Tibor |
1945 | Ayer, Miriam | On Convergence In Length | Rado, Tibor |
1943 | Huskey, Harry | Contributions to the Problem of Geocze | Rado, Tibor |
1942 | Goffman, Casper | On The Converses Of Certain Theorems On The Symmetric Structure Of Sets And Functions | Henry Blumberg |
1942 | Helsel, Robert | A Geometrical Application of Intregal Means | Rado, Tibor |
1942 | Krabill, David | Some Matrices Whose Elements Are Functions Of One Variable | Bamforth, Frederic |
1942 | Westhafer, Robert | Singular Solutions Of Ordinary Differential Equations Of The First Order | Bamforth, Frederic |
1941 | Mickle, Earl | Hamiltonian And Quasi-Hamiltonian Functions Associated With Double Integral Variation Problems | La Paz, Lincoln |
1941 | Ringenberg, Lawrence | On Functions Of Lawrence | Rado, Tibor |
1941 | Schart, William | Conditions For Solutions Of Certain Differential Equations Which Have Specified Properties | Bamforth, Frederic |
1941 | Young, Paul | On The Approximation of Functions By Integral Means | Rado, Tibor |
1940 | Cox, Jr., William | On Cummutative Normal Matrices And Unitary Equivalence Of Matrices | Kuhn, Harry |
1939 | Hammer, Preston | Projective Geometries Over A Pseudo-Field | Rado, Tibor |
1939 | Kato. Chosaburo | Configuration N Sub 3 | Rado, Tibor |
1939 | Reichelderfer, Paul | Some Properties Of Continuous Transformations In The Plane | Rado, Tibor |
1939 | Snyder, Walter | On Functions Of Squares | Rado, Tibor |
1939 | Tepletsky, Benjamin | Stability And Periodicity Of Solutions Of Mathieu's Equation | Bamforth, Frederic |
1938 | Rodabaugh, Louis | The Solution of a Certain Linear Partial Differential Equation of the First Order | Bamforth, Frederic |
1937 | Kohlmetz, Dorothy | Certain Problems Of A Special Character In Convex Functions | Rado, Tibor |
1936 | Bailey, Alson | An Approach To The Study Of Conic Sections, Based On A Group Of Projective Transformations | Rado, Tibor |
1936 | Gleyzal, Andre | On Transfinite Real Numbers, General Orders, Riemannian And Finsler Spaces | Blumberg, Henry |
1936 | Hanson, Eugene | A Theorem Of Denjoy, Young And Saks. Ii. The Tau Limit | Blumberg, Henry |
1936 | Hummel, Paul | Continued Fractions And Matrices | MacDuffee, Cyrus |
1936 | Southard, Thomas | On Certain Projective Geometries and Their Relation to Algebra | Rado, Tibor |
1935 | Jenkins, Emerson | The Composition Of Quadratic Forms | MacDuffee, Cyrus |
1935 | Lewis, Fred | Some Properties Of An Infinite Class Of Collineation Groups | Kuhn, Harry |
1935 | Rinehart, Robert | Some Properties Of The Discriminant Matrices Of A Linear Associative Algebra | MacDuffee, Cyrus |
Quick Links:
Updated: April 2024
The degree with honors in Mathematics or Statistics is awarded to the student who has demonstrated outstanding intellectual achievement in a program of study which extends beyond the requirements of the major. The principal considerations for recommending a student for the degree with honors will be: Mastery of core material and skills, breadth and, particularly, depth of knowledge beyond the core material, ability to pursue independent study of mathematics or statistics, originality in methods of investigation, and, where appropriate, creativity in research.
An honors program normally consists of two semesters (MATH/STAT 493 and 494) and a winter study (WSP 031) of independent research, culminating in a thesis and a presentation. Under certain circumstances, the honors work can consist of coordinated study involving a one semester (MATH/STAT 493 or 494) and a winter study (WSP 030) of independent research, culminating in a “minithesis” and a presentation. At least one semester should be in addition to the major requirements, and thesis courses do not count as 400-level senior seminars.
An honors program in actuarial studies requires significant achievement on four appropriate examinations of the Society of Actuaries.
Highest honors will be reserved for the rare student who has displayed exceptional ability, achievement or originality. Such a student usually will have written a thesis, or pursued actuarial honors and written a mini-thesis. An outstanding student who writes a mini-thesis, or pursues actuarial honors and writes a paper, might also be considered. In all cases, the award of honors and highest honors is the decision of the Department.
Here is a list of possible colloquium topics that different faculty are willing and eager to advise. You can talk to several faculty about any colloquium topic, the sooner the better, at least a month or two before your talk. For various reasons faculty may or may not be willing or able to advise your colloquium, which is another reason to start early.
RESEARCH INTERESTS OF MATHEMATICS AND STATISTICS FACULTY
Here is a list of faculty interests and possible thesis topics. You may use this list to select a thesis topic or you can use the list below to get a general idea of the mathematical interests of our faculty.
Colin Adams (On Leave 2024 – 2025)
Research interests: Topology and tiling theory. I work in low-dimensional topology. Specifically, I work in the two fields of knot theory and hyperbolic 3-manifold theory and develop the connections between the two. Knot theory is the study of knotted circles in 3-space, and it has applications to chemistry, biology and physics. I am also interested in tiling theory and have been working with students in this area as well.
Hyperbolic 3-manifold theory utilizes hyperbolic geometry to understand 3-manifolds, which can be thought of as possible models of the spatial universe.
Possible thesis topics:
Possible colloquium topics : Particularly interested in topology, knot theory, graph theory, tiling theory and geometry but will consider other topics.
Christina Athanasouli
Research Interests: Differential equations, dynamical systems (both smooth and non-smooth), mathematical modeling with applications in biological and mechanical systems
My research focuses on analyzing mathematical models that describe various phenomena in Mathematical Neuroscience and Engineering. In particular, I work on understanding 1) the underlying mechanisms of human sleep (e.g. how sleep patterns change with development or due to perturbations), and 2) potential design or physical factors that may influence the dynamics in vibro-impact mechanical systems for the purpose of harvesting energy. Mathematically, I use various techniques from dynamical systems and incorporate both numerical and analytical tools in my work.
Possible colloquium topics: Topics in applied mathematics, such as:
Julie Blackwood
Research Interests: Mathematical modeling, theoretical ecology, population biology, differential equations, dynamical systems.
My research uses mathematical models to uncover the complex mechanisms generating ecological dynamics, and when applicable emphasis is placed on evaluating intervention programs. My research is in various ecological areas including ( I ) invasive species management by using mathematical and economic models to evaluate the costs and benefits of control strategies, and ( II ) disease ecology by evaluating competing mathematical models of the transmission dynamics for both human and wildlife diseases.
Each topic (1-3) can focus on a case study of a particular invasive species or disease, and/or can investigate the effects of ecological properties (spatial structure, resource availability, contact structure, etc.) of the system.
Possible colloquium topics: Any topics in applied mathematics, such as:
Research Interest : Statistical methodology and applications. One of my research topics is variable selection for high-dimensional data. I am interested in traditional and modern approaches for selecting variables from a large candidate set in different settings and studying the corresponding theoretical properties. The settings include linear model, partial linear model, survival analysis, dynamic networks, etc. Another part of my research studies the mediation model, which examines the underlying mechanism of how variables relate to each other. My research also involves applying existing methods and developing new procedures to model the correlated observations and capture the time-varying effect. I am also interested in applications of data mining and statistical learning methods, e.g., their applications in analyzing the rhetorical styles in English text data.
Possible colloquium topics: I am open to any problems in statistical methodology and applications, not limited to my research interests and the possible thesis topics above.
Richard De Veaux
Research interests: Statistics.
My research interests are in both statistical methodology and in statistical applications. For the first, I look at different methods and try to understand why some methods work well in particular settings, or more creatively, to try to come up with new methods. For the second, I work in collaboration with an investigator (e.g. scientist, doctor, marketing analyst) on a particular statistical application. I have been especially interested in problems dealing with large data sets and the associated modeling tools that work for these problems.
Possible colloquium topics:
Thomas Garrity (On Leave 2024 – 2025)
Research interest: Number Theory and Dynamics.
My area of research is officially called “multi-dimensional continued fraction algorithms,” an area that touches many different branches of mathematics (which is one reason it is both interesting and rich). In recent years, students writing theses with me have used serious tools from geometry, dynamics, ergodic theory, functional analysis, linear algebra, differentiability conditions, and combinatorics. (No single person has used all of these tools.) It is an area to see how mathematics is truly interrelated, forming one coherent whole.
While my original interest in this area stemmed from trying to find interesting methods for expressing real numbers as sequences of integers (the Hermite problem), over the years this has led to me interacting with many different mathematicians, and to me learning a whole lot of math. My theses students have had much the same experiences, including the emotional rush of discovery and the occasional despair of frustration. The whole experience of writing a thesis should be intense, and ultimately rewarding. Also, since this area of math has so many facets and has so many entrance points, I have had thesis students from wildly different mathematical backgrounds do wonderful work; hence all welcome.
Possible colloquium topics: Any interesting topic in mathematics.
Leo Goldmakher
Research interests: Number theory and arithmetic combinatorics.
I’m interested in quantifying structure and randomness within naturally occurring sets or sequences, such as the prime numbers, or the sequence of coefficients of a continued fraction, or a subset of a vector space. Doing so typically involves using ideas from analysis, probability, algebra, and combinatorics.
Possible thesis topics:
Anything in number theory or arithmetic combinatorics.
Possible colloquium topics: I’m happy to advise a colloquium in any area of math.
Susan Loepp
Research interests: Commutative Algebra. I study algebraic structures called commutative rings. Specifically, I have been investigating the relationship between local rings and their completion. One defines the completion of a ring by first defining a metric on the ring and then completing the ring with respect to that metric. I am interested in what kinds of algebraic properties a ring and its completion share. This relationship has proven to be intricate and quite surprising. I am also interested in the theory of tight closure, and Homological Algebra.
Topics in Commutative Algebra including:
Possible colloquium topics: Any topics in mathematics and especially commutative algebra/ring theory.
Steven Miller
For more information and references, see http://www.williams.edu/Mathematics/sjmiller/public_html/index.htm
Research interests : Analytic number theory, random matrix theory, probability and statistics, graph theory.
My main research interest is in the distribution of zeros of L-functions. The most studied of these is the Riemann zeta function, Sum_{n=1 to oo} 1/n^s. The importance of this function becomes apparent when we notice that it can also be written as Prod_{p prime} 1 / (1 – 1/p^s); this function relates properties of the primes to those of the integers (and we know where the integers are!). It turns out that the properties of zeros of L-functions are extremely useful in attacking questions in number theory. Interestingly, a terrific model for these zeros is given by random matrix theory: choose a large matrix at random and study its eigenvalues. This model also does a terrific job describing behavior ranging from heavy nuclei like Uranium to bus routes in Mexico! I’m studying several problems in random matrix theory, which also have applications to graph theory (building efficient networks). I am also working on several problems in probability and statistics, especially (but not limited to) sabermetrics (applying mathematical statistics to baseball) and Benford’s law of digit bias (which is often connected to fascinating questions about equidistribution). Many data sets have a preponderance of first digits equal to 1 (look at the first million Fibonacci numbers, and you’ll see a leading digit of 1 about 30% of the time). In addition to being of theoretical interest, applications range from the IRS (which uses it to detect tax fraud) to computer science (building more efficient computers). I’m exploring the subject with several colleagues in fields ranging from accounting to engineering to the social sciences.
Possible thesis topics:
Possible colloquium topics:
Plus anything you find interesting. I’m also interested in applications, and have worked on subjects ranging from accounting to computer science to geology to marketing….
Ralph Morrison
Research interests: I work in algebraic geometry, tropical geometry, graph theory (especially chip-firing games on graphs), and discrete geometry, as well as computer implementations that study these topics. Algebraic geometry is the study of solution sets to polynomial equations. Such a solution set is called a variety. Tropical geometry is a “skeletonized” version of algebraic geometry. We can take a classical variety and “tropicalize” it, giving us a tropical variety, which is a piecewise-linear subset of Euclidean space. Tropical geometry combines combinatorics, discrete geometry, and graph theory with classical algebraic geometry, and allows for developing theory and computations that tell us about the classical varieties. One flavor of this area of math is to study chip-firing games on graphs, which are motivated by (and applied to) questions about algebraic curves.
Possible thesis topics : Anything related to tropical geometry, algebraic geometry, chip-firing games (or other graph theory topics), and discrete geometry. Here are a few specific topics/questions:
Possible Colloquium topics: I’m happy to advise a talk in any area of math, but would be especially excited about talks related to algebra, geometry, graph theory, or discrete mathematics.
Shaoyang Ning (On Leave 2024 – 2025)
Research Interest : Statistical methodologies and applications. My research focuses on the study and design of statistical methods for integrative data analysis, in particular, to address the challenges of increasing complexity and connectivity arising from “Big Data”. I’m interested in innovating statistical methods that efficiently integrate multi-source, multi-resolution information to solve real-life problems. Instances include tracking localized influenza with Google search data and predicting cancer-targeting drugs with high-throughput genetic profiling data. Other interests include Bayesian methods, copula modeling, and nonparametric methods.
Possible colloquium topics: Any topics in statistical methodology and application, including but not limited to: topics in applied statistics, Bayesian methods, computational biology, statistical learning, “Big Data” mining, and other cross-disciplinary projects.
Anna Neufeld
Research interests: My research is motivated by the gap between classical statistical tools and practical data analysis. Classic statistical tools are designed for testing a single hypothesis about a single, pre-specified model. However, modern data analysis is an adaptive process that involves exploring the data, fitting several models, evaluating these models, and then testing a potentially large number of hypotheses about one or more selected models. With this in mind, I am interested in topics such as (1) methods for model validation and selection, (2) methods for testing data-driven hypotheses (post-selection inference), and (3) methods for testing a large number of hypotheses. I am also interested in any applied project where I can help a scientist rigorously answer an important question using data.
Allison Pacelli
Research interests: Math Education, Math & Politics, and Algebraic Number Theory.
Math Education. Math education is the study of the practice of teaching and learning mathematics, at all levels. For example, do high school calculus students learn best from lecture or inquiry-based learning? What mathematical content knowledge is critical for elementary school math teachers? Is a flipped classroom more effective than a traditional learning format? Many fascinating questions remain, at all levels of education. We can talk further to narrow down project ideas.
Math & Politics. The mathematics of voting and the mathematics of fair division are two fascinating topics in the field of mathematics and politics. Research questions look at types of voting systems, and the properties that we would want a voting system to satisfy, as well as the idea of fairness when splitting up a single object, like cake, or a collection of objects, such as after a divorce or a death.
Algebraic Number Theory. The Fundamental Theorem of Arithmetic states that the ring of integers is a unique factorization domain, that is, every integer can be uniquely factored into a product of primes. In other rings, there are analogues of prime numbers, but factorization into primes is not necessarily unique!
In order to determine whether factorization into primes is unique in the ring of integers of a number field or function field, it is useful to study the associated class group – the group of equivalence classes of ideals. The class group is trivial if and only if the ring is a unique factorization domain. Although the study of class groups dates back to Gauss and played a key role in the history of Fermat’s Last Theorem, many basic questions remain open.
Possible thesis topics:
Possible colloquium topics: Anything in number theory, algebra, or math & politics.
Anna Plantinga
Research interests: I am interested in both applied and methodological statistics. My research primarily involves problems related to statistical analysis within genetics, genomics, and in particular the human microbiome (the set of bacteria that live in and on a person). Current areas of interest include longitudinal data, distance-based analysis methods such as kernel machine regression, high-dimensional data, and structured data.
Any topics in statistical application, education, or methodology, including but not restricted to:
Cesar Silva
Research interests : Ergodic theory and measurable dynamics; in particular mixing properties and rank one examples, and infinite measure-preserving and nonsingular transformations and group actions. Measurable dynamics of transformations defined on the p-adic field. Measurable sensitivity. Fractals. Fractal Geometry.
Possible thesis topics: Ergodic Theory. Ergodic theory studies the probabilistic behavior of abstract dynamical systems. Dynamical systems are systems that change with time, such as the motion of the planets or of a pendulum. Abstract dynamical systems represent the state of a dynamical system by a point in a mathematical space (phase space). In many cases this space is assumed to be the unit interval [0,1) with Lebesgue measure. One usually assumes that time is measured at discrete intervals and so the law of motion of the system is represented by a single map (or transformation) of the phase space [0,1). In this case one studies various dynamical behaviors of these maps, such as ergodicity, weak mixing, and mixing. I am also interested in studying the measurable dynamics of systems defined on the p-adics numbers. The prerequisite is a first course in real analysis. Topological Dynamics. Dynamics on compact or locally compact spaces.
Topics in mathematics and in particular:
Mihai Stoiciu
Research interests: Mathematical Physics and Functional Analysis. I am interested in the study of the spectral properties of various operators arising from mathematical physics – especially the Schrodinger operator. In particular, I am investigating the distribution of the eigenvalues for special classes of self-adjoint and unitary random matrices.
Topics in mathematical physics, functional analysis and probability including:
Possible colloquium topics:
Any topics in mathematics, mathematical physics, functional analysis, or probability, such as:
Elizabeth Upton
Research Interests: My research interests center around network science, with a focus on regression methods for network-indexed data. Networks are used to capture the relationships between elements within a system. Examples include social networks, transportation networks, and biological networks. I also enjoy tackling problems with pragmatic applications and am therefore interested in applied interdisciplinary research.
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From choosing a topic and conducting research to crafting a strong argument, writing a thesis paper can be a rewarding experience.
It can also be a challenging experience. If you've never written a thesis paper before, you may not know where to start. You may not even be sure exactly what a thesis paper is. But don't worry; the right support and resources can help you navigate this writing process.
A thesis paper is a type of academic essay that you might write as a graduation requirement for certain bachelor's, master's or honors programs. Thesis papers present your own original research or analysis on a specific topic related to your field.
“In some ways, a thesis paper can look a lot like a novella,” said Shana Chartier , director of information literacy at Southern New Hampshire University (SNHU). “It’s too short to be a full-length novel, but with the standard size of 40-60 pages (for a bachelor’s) and 60-100 pages (for a master’s), it is a robust exploration of a topic, explaining one’s understanding of a topic based on personal research.”
Chartier has worked in academia for over 13 years and at SNHU for nearly eight. In her role as an instructor and director, Chartier has helped to guide students through the writing process, like editing and providing resources.
Chartier has written and published academic papers such as "Augmented Reality Gamifies the Library: A Ride Through the Technological Frontier" and "Going Beyond the One-Shot: Spiraling Information Literacy Across Four Years." Both of these academic papers required Chartier to have hands-on experience with the subject matter. Like a thesis paper, they also involved hypothesizing and doing original research to come to a conclusion.
“When writing a thesis paper, the importance of staying organized cannot be overstated,” said Chartier. “Mapping out each step of the way, making firm and soft deadlines... and having other pairs of eyes on your work to ensure academic accuracy and clean editing are crucial to writing a successful paper.”
What your thesis paper is for will determine some of the specific requirements and steps you might take, but the first step is usually the same: Choosing a topic.
“Choosing a topic can be daunting," said Rochelle Attari , a peer tutor at SNHU. "But if (you) stick with a subject (you're) interested in... choosing a topic is much more manageable.”
Similar to a thesis, Attari recently finished the capstone for her bachelor’s in psychology . Her bachelor’s concentration is in forensics, and her capstone focused on the topic of using a combined therapy model for inmates who experience substance abuse issues to reduce recidivism.
“The hardest part was deciding what I wanted to focus on,” Attari said. “But once I nailed down my topic, each milestone was more straightforward.”
In her own writing experience, Attari said brainstorming was an important step when choosing her topic. She recommends writing down different ideas on a piece of paper and doing some preliminary research on what’s already been written on your topic.
By doing this exercise, you can narrow or broaden your ideas until you’ve found a topic you’re excited about. " Brainstorming is essential when writing a paper and is not a last-minute activity,” Attari said.
Thesis papers tend to have a standard format with common sections as the building blocks.
While the structure Attari describes below will work for many theses, it’s important to double-check with your program to see if there are any specific requirements. Writing a thesis for a Master of Fine Arts, for example, might actually look more like a fiction novel.
According to Attari, a thesis paper is often structured with the following major sections:
Now, let’s take a closer look at what each different section should include.
Your introduction is your opportunity to present the topic of your thesis paper. In this section, you can explain why that topic is important. The introduction is also the place to include your thesis statement, which shows your stance in the paper.
Attari said that writing an introduction can be tricky, especially when you're trying to capture your reader’s attention and state your argument.
“I have found that starting with a statement of truth about a topic that pertains to an issue I am writing about typically does the trick,” Attari said. She demonstrated this advice in an example introduction she wrote for a paper on the effects of daylight in Alaska:
In the continental United States, we can always count on the sun rising and setting around the same time each day, but in Alaska, during certain times of the year, the sun rises and does not set for weeks. Research has shown that the sun provides vitamin D and is an essential part of our health, but little is known about how daylight twenty-four hours a day affects the circadian rhythm and sleep.
In the example Attari wrote, she introduces the topic and informs the reader what the paper will cover. Somewhere in her intro, she said she would also include her thesis statement, which might be:
Twenty-four hours of daylight over an extended period does not affect sleep patterns in humans and is not the cause of daytime fatigue in northern Alaska .
In the literature review, you'll look at what information is already out there about your topic. “This is where scholarly articles about your topic are essential,” said Attari. “These articles will help you find the gap in research that you have identified and will also support your thesis statement."
Telling your reader what research has already been done will help them see how your research fits into the larger conversation. Most university libraries offer databases of scholarly/peer-reviewed articles that can be helpful in your search.
In the methods section of your thesis paper, you get to explain how you learned what you learned. This might include what experiment you conducted as a part of your independent research.
“For instance,” Attari said, “if you are a psychology major and have identified a gap in research on which therapies are effective for anxiety, your methods section would consist of the number of participants, the type of experiment and any other particulars you would use for that experiment.”
In this section, you'll explain the results of your study. For example, building on the psychology example Attari outlined, you might share self-reported anxiety levels for participants trying different kinds of therapies. To help you communicate your results clearly, you might include data, charts, tables or other visualizations.
The discussion section of your thesis paper is where you will analyze and interpret the results you presented in the previous section. This is where you can discuss what your findings really mean or compare them to the research you found in your literature review.
The discussion section is your chance to show why the data you collected matters and how it fits into bigger conversations in your field.
The conclusion of your thesis paper is your opportunity to sum up your argument and leave your reader thinking about why your research matters.
Attari breaks the conclusion down into simple parts. “You restate the original issue and thesis statement, explain the experiment's results and discuss possible next steps for further research,” she said.
Resources to help write your thesis paper.
While your thesis paper may be based on your independent research, writing it doesn’t have to be a solitary process. Asking for help and using the resources that are available to you can make the process easier.
If you're writing a thesis paper, some resources Chartier encourages you to use are:
It can also be helpful to check out what coaching or tutoring options are available through your school. At SNHU, for example, the Academic Support Center offers writing and grammar workshops , and students can access 24/7 tutoring and 1:1 sessions with peer tutors, like Attari.
"Students can even submit their papers and receive written feedback... like revisions and editing suggestions," she said.
If you are writing a thesis paper, there are many resources available to you. It's a long paper, but with the right mindset and support, you can successfully navigate the process.
“Pace yourself,” said Chartier. “This is a marathon, not a sprint. Setting smaller goals to get to the big finish line can make the process seem less daunting, and remember to be proud of yourself and celebrate your accomplishment once you’re done. Writing a thesis is no small task, and it’s important work for the scholarly community.”
A degree can change your life. Choose your program from 200+ SNHU degrees that can take you where you want to go.
Meg Palmer ’18 is a writer and scholar by trade who loves reading, riding her bike and singing in a barbershop quartet. She earned her bachelor’s degree in English, language and literature at Southern New Hampshire University (SNHU) and her master’s degree in writing, rhetoric and discourse at DePaul University (’20). While attending SNHU, she served as the editor-in-chief of the campus student newspaper, The Penmen Press, where she deepened her passion for writing. Meg is an adjunct professor at Johnson and Wales University, where she teaches first year writing, honors composition, and public speaking. Connect with her on LinkedIn .
About southern new hampshire university.
SNHU is a nonprofit, accredited university with a mission to make high-quality education more accessible and affordable for everyone.
Founded in 1932, and online since 1995, we’ve helped countless students reach their goals with flexible, career-focused programs . Our 300-acre campus in Manchester, NH is home to over 3,000 students, and we serve over 135,000 students online. Visit our about SNHU page to learn more about our mission, accreditations, leadership team, national recognitions and awards.
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PDF BIO-MATHEMATICS: INTRODUCTION TO THE MATHEMATICAL MODEL OF THE HEPATITIS C VIRUS, Lucille J. Durfee PDF ANALYSIS AND SYNTHESIS OF THE LITERATURE REGARDING ACTIVE AND DIRECT INSTRUCTION AND THEIR PROMOTION OF FLEXIBLE THINKING IN MATHEMATICS, Genelle Elizabeth Gonzalez PDF LIFE EXPECTANCY, Ali R. Hassanzadah PDF
Brigham Young University's open access repository's section for electronic theses and dissertations concerning mathematics education.
Digital Commons @ USF > College of Arts and Sciences > Mathematics and Statistics > Theses and Dissertations
Theses/Dissertations from 2022. PDF. Covering Systems and the Minimum Modulus Problem, Maria Claire Cummings. PDF. The Existence and Quantum Approximation of Optimal Pure State Ensembles, Ryan Thomas McGaha. PDF. Structure Preserving Reduced-Order Models of Hamiltonian Systems, Megan Alice McKay. PDF.
Mathematics PhD theses A selection of Mathematics PhD thesis titles is listed below, some of which are available online:
2023 Qingci An (F. Lu)Identifiability and data-adaptive RKHS Tikhonov regularization in nonparametric learning problems Letian Chen (J. Bernstein)On Mean Curvature Flows coming out of Cones Ben Dees (C. Mese)On the Singular Sets of Harmonic Maps into F-Connected Complexes Lili He (H. Lindblad)The linear stability of weakly charged and slowly rotating Kerr Newman family of charged black holes ...
Welcome to the Harvard Department of Mathematics PhD Dissertations Archival Listing. Browse through an extensive collection of PhD dissertations here.
A senior thesis is required by the Mathematics concentration to be a candidate for graduation with the distinction of High or Highest honors in Mathematics. See the document ' Honors in Mathematics ' for more information about honors recommendations and about finding a topic and advisor for your thesis. With regards to topics and advisors ...
Master's theses and doctoral dissertations from the University of Kentucky Department of Mathematics are available here.
Twistor theory and its applications in asymptotically flat spacetimes . Bu, Wei (The University of Edinburgh, 2024-06-19) This thesis provides an overview of the recent progress in understanding dynamics in asymptotically flat spacetimes inspired by the use of twistor theory. We begin by introducing scattering amplitudes of QFTs in 4d ...
Modeling and simulation of uni- and multi-flagellar bacterial locomotion in a viscous fluid. PhD Theses 2022. Author. Title. James Petrie. Decentralized contact tracing protocols and a risk analysis approach to pandemic control. Yiming Meng. Bifurcation and Robust Control of Instabilities in the Presence of Uncertainties.
Mathematics Undergraduate Theses. The Department of Mathematics offers Bachelor's degrees in Mathematics, Applied Mathematics, and Secondary Education Mathematics. In addition to mastering specific mathematical content, mathematics majors develop excellent general skills in problem solving and precise analytical thinking.
Advice on Writing a Senior Thesis Harvard University Mathematics Department Last update: March 2017 This document contains advice from students who wrote a senior thesis, and from faculty involved in the senior thesis process, from advising to reading theses and examining students on them. Advice from students
Tanveer, Saleh. 2020. Marrero Garcia, Hilary. A Geometric Analysis Approach to Distinguish Basal Serotonin Levels in Control and Depressed Mice. Best, Janet. 2020. Wood, Emily. Analysis of SIS Patch Model and Development of a Modified SEIR Model Applied to the Current Opiate Crisis. Lou, Yuan.
Senior Theses An undergraduate thesis is a singly-authored mathematics document, usually between 10 and 80 pages, on some topic in mathematics. The thesis is typically a mixture of exposition of known mathematics and an account of your own research.
PDF | Due to its abstract nature with complex concepts and the need for precision, learning mathematics can be a challenging endeavor for many students.... | Find, read and cite all the research ...
The department began awarding PhD degrees on a regular basis around 1930, when a formal doctoral program was established as a result of the appointment of Tibor Radó as a professor at our department. To date, the department has awarded over 800 PhD degrees. An average of approximately 15 dissertations per year have been added in recent times.
PDF | On Dec 1, 2020, Mark Angelo C. Reotutar published A Systematic Review on Graduate Mathematics Theses and Dissertations of State Universities and Colleges in Region I: A Basis for a Proposed ...
GUIDELINES FOR A THESIS IN MATHEMATICS AT THE UNIVERSITY OF LETHBRIDGE Writing your thesis is a major part of earning a graduate degree from the University of Lethbridge. We would like to give you some information about this, although nothing we say replaces the university's regulations that are found in the Master of Science Policies and Procedures [9, especially x14{x16] and the Doctor of ...
The effect of problem-solving teaching approach on learning fractions in Grade 8. Agadagba, Oghenerukewe Emmanuel (2024) Problem-solving teaching approach is critical in improving learners' cognition and problem-solving skills in different content areas in mathematics. Therefore, this quantitative study evaluated the effect of the problem ...
For PhD Thesis, see here. This page is about Senior thesis. In order that senior thesis produced by Harvard math students are easier for other undergrads to benefit from, we would like to exhibit more senior theses online (while all theses are available through Harvard university archives, it would be more convenient to have them online).
Mathematics, as we know, " Mathematics is the Queen and servant of Sciences. Confluent learning, as reemphasized by Loon and Nichol (2015), is holistic, it aims to activate and engage. all of ...
Math/Stats Thesis and Colloquium Topics 2024- 2025 The degree with honors in Mathematics or Statistics is awarded to the student who has demonstrated outstanding intellectual achievement in a program of study which extends beyond the requirements of the major. The principal considerations for recommending a student for the degree with honors will be: Mastery of core material and skills ...
SNHU is a nonprofit, accredited university with a mission to make high-quality education more accessible and affordable for everyone.. Founded in 1932, and online since 1995, we've helped countless students reach their goals with flexible, career-focused programs.Our 300-acre campus in Manchester, NH is home to over 3,000 students, and we serve over 135,000 students online.