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About DAMTP

The Department of Applied Mathematics and Theoretical Physics (DAMTP) is one of two Mathematics Departments at the University of Cambridge, the other being the Department of Pure Mathematics and Mathematical Statistics (DPMMS). The two Departments together constitute the Faculty of Mathematics , and are responsible for the teaching of Mathematics and its applications within the Mathematical Tripos.

Both Mathematics Departments are located, alongside the Isaac Newton Institute for Mathematical Sciences and the Betty and Gordon Moore Library at the striking Centre for Mathematical Sciences , completed in 2002.

DAMTP has a 50-year tradition of carrying out research of world-class excellence in a broad range of subjects across applied mathematics and theoretical physics. Members of DAMTP have made seminal theoretical advances in the development of mathematical techniques and in the application of mathematics, combined with physical reasoning, to many different areas of science. A unique strength is the G K Batchelor Laboratory, in which fundamental experimental science is also performed. Research students have always played a crucial role in DAMTP research, working on demanding research problems under the supervision of leading mathematical scientists and, in many cases, moving on to become research leaders themselves. The current aims of DAMTP are to continue this tradition, in doing so broadening the range of subject areas studied and using new mathematical and computational techniques.

DAMTP currently has about 50 academic staff, about 85 postdoctoral staff and about 110 research students, supported by about 30 administrative, technical and secretarial staff.

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Postgraduate Admissions

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As a postgraduate student at the Cavendish laboratory you would be joining an institution with an illustrious history of innovation and discovery and a current programme that builds on that tradition.

Postgraduate Students in the Department study for one of the following qualifications:

• Master of Advanced Studies (MASt in Physics) , 9 Months
• MPhil in Data Intensive Science ,10 Months
• MPhil in Planetary Sciences and Life in the Universe (PSLU) , 10-month
• MPhil in Physics (by research) , 1 year
• MPhil in Scientific Computing (taught/research), 1 year
• PhD in Physics (by research), 3+ years
• Interdisciplinary PhD in Nanoscience and Nanotechnology (NanoDTC)   (initial common training period + research), 3.5+ years
• PhD in Computational Methods for Materials Science - 4 year

Applications for admissions

If you decide to make an application, you are advised to do so as early as possible. This will increase your chances not only of acceptance but also of being considered for funding. 

All candidates should consult the course directory for funding deadlines

We hope that the above information is helpful as we wish to encourage good applicants. Should you choose to apply, we will try to reach a decision in the Department without undue delay before passing on your papers for further consideration by the Colleges, the Degree Committee, and the Postgraduate Admissions Office. You should not take any steps to come to Cambridge before you receive an admission letter from the Postgraduate Admissions Office stating that you have satisfied all conditions.

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Other Useful links

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Postgraduate Open Days 

Virtual Postgraduate Open Days takes place every year. During the Open Day you can find out more about what it is like to be a Cavendish postgraduate, various research areas, the application process, student life and more. You will also get an opportunity to attend a Q&A session with the current staff.

This year the Postgraduate Open Day will take place between 4 th and 15 th November 2024.  You can find more information here.

Cavendish Laboratory

19 J J Thomson Avenue

Cambridge CB3 0HE

Tel: +44 1223 337200

Email: [email protected]

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PhD Admissions in High Energy Physics, General Relativity and Cosmology

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Information for External Applicants to the PhD

Every year DAMTP receives a large number of applications for PhD places in the High Energy Physics (HEP) and General Relativity & Cosmology (GR) research groups. In recent years the number of students admitted to these groups has fluctuated between eight and twelve depending on the number of available supervisors. There are typically over ten applicants for each available place.

In these subject areas, a large majority of successful applicants will have first taken   Part III of the Mathematical Tripos (MMath/MASt) . This is a one year graduate-level course offering lecture courses in a wide range of topics in mathematics and theoretical physics. For more information about Part III please see the   course webpage .

There are two reasons why most of our PhD students come through Part III. First, Part III provides the necessary preparation for research in theoretical physics at a level matched by only a few other courses worldwide. Starting PhD students are expected to have covered all the material in those Part III lecture courses which are most relevant to their research project. A description of the content of each Part III lecture course can be found in the   Guide to Courses .

Second, the Part III class typically provides fifty or so well-qualified applicants for the available PhD places. Many of these applicants were at or near the top of their undergraduate class at their previous university. Performance in Part III allows us to rank these candidates accurately. It is much harder for us to rank external applicants. For these reasons, if you are interested in doing a PhD in theoretical physics in Cambridge we would strongly encourage you to consider applying for Part III first.

Ultimately, the decision to accept any applicant as a PhD student is made by the faculty member who will become their supervisor. The HEP and GR groups cover research in a wide range of areas and the precise requirements of individual supervisors may vary. In particular, we continue to admit a few students (one or two per year) who have not taken Part III. These admissions are usually in areas which could be loosely described as being “less formal” such as lattice field theory, particle physics phenomenology and cosmology. Successful external applicants often have relevant research experience in one of these areas.

Deadlines and Offers

Applicants to the HEP and GR research groups should note that we anticipate making some offers to outstanding candidates in February/March – for full consideration you should submit your application to the Postgraduate Admissions Office by   15 December 2023   for full consideration   (this arrangement applies equally to UK, EU and Overseas applicants). These offers will be made on the basis of academic track record, and the applicant may also be invited to an interview and/or asked to sit a written admissions test. However, it is also expected that some of the PhD places in the HEP and GR groups may be offered in June once the Part III Mathematical Tripos results are available.

Current PhD opportunity (closes 15 December 2023):  Newnham-DAMTP PhD scholarship for Women

Please note that if you wish to be considered for funding from the   University Postgraduate Funding Competition   you must apply by the relevant date ( Gates US: 11 October 2023; all other funding: 4 January 2024 ).

More information about applying can be found on the   DAMTP PhD Opportunities webpage .

Forthcoming Seminars

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HEP Graduate Admissions

The HEP Group welcomes applications from students wishing to study for a PhD in experimental or theoretical High Energy Physics. We normally have projects available on each of our active experiments, and on various theoretical topics.

A PhD takes between three and four years to complete. We also offer one year MPhils (but only in exceptional cases).

We have a limited number of PhD places each year funded by the Science and Technology Facilities Council. These pay the full costs for UK citizens. We have no direct funding for non-UK citizens, but often offer places to students with funding from scholarships, such as those offered by the Gates Cambridge Trust or from other sources. There are many funding opportunities at Cambridge from a wide variety of sources including the Cambridge Trust, Gates Cambridge, Colleges, departments, Research Councils and central University funds.

The deadlines for applications vary depending on the funding sources - there is some information on this page .

High Energy Physics (Experimental)

The main focus of our research is with the LHCb and ATLAS experiments at the LHC and with the current and future neutrino experiments MicroBooNE and DUNE. We are also involved in smaller experiments, such as searching for ultra-light dark matter using novel atom interferometers (MAGIS and AION). As a member of one of these collaborations you will benefit from access to rich and varied datasets and you will have the opportunity to make leading contributions to the analysis of a physics topic chosen with your supervisor. You will develop new analytical skills and learn state-of-the-art methods for the exploitation of the data. You will be part of a large and dynamic international collaboration with many opportunities to engage with your co-researchers both in Cambridge and at CERN or Fermilab.

Our group also plays a leading role in R&D activities for future detectors and upgrades with an emphasis on silicon sensors for tracking and single-photon-sensitive sensors for particle identification and we encourage our students to become involved in our R&D work. We are currently offering a PhD studentship jointly with RAL to explore novel techniques to exploit high precision timing information for a future LHCb RICH upgrade.

High Energy Physics (Theoretical)

Our group is interested in a range of theoretical problems with a phenomenological emphasis (that is, with relevance to current or future experiments). We have close contacts with the Cavendish experimental high energy group and with the more mathematical theory group in the Department of Applied Mathematics and Theoretical Physics (DAMTP) . There are also collaborative projects with groups at CERN and elsewhere in Europe and the UK.

• High Energy Physics Theory Group homepage
• Cambridge Pheno Working Group homepage

Current research interests include:

• Search strategies at the LHC for new physics beyond the Standard Model, for example supersymmetry, black holes etc.
• The development of improved Monte Carlo simulations for high-energy collisions incorporating higher-order perturbative corrections.
• Determination of the probability distributions of partons in the proton to high accuracy, with particular emphasis on implications for LHC physics.
• The effective Lagrangian approach to understanding Quantum Chromodynamics at low energies, and its application to the properties and interactions of hadrons.

More details on possible projects are available here .

11th October 2023 for Gates Trust funded graduate students (USA residents) , 2nd December 2021 for non-USA residents.

5th December 2023 for Cambridge Trust funded graduate students.

10th December 2022 for Research Council funded graduate students.

The 2024 interviews for prospective Trust funded and Research Council funded graduate students will be held in January and February 2024.

Applications for alternatively funded places will be considered at regular intervals throughout the year.

How can I find out more?

We've tried to answer most common questions on the FAQ page , so please read this first.

If you have further questions please contact the Rutherford Hub Administration by email , by phone (+44 (0)1223 76 8138 or +44 (0)1223 33 7478) or by post at:

HEP Group, Cavendish Laboratory, JJ Thomson Avenue, Cambridge, CB3 0HE, United Kingdom.

Further details can be obtained here together with application forms.

Further details on research opportunities can be obtained from:

• Paula Alvarez Cartelle ( email , phone +44 (0)1223 33 7228) for experimental research,
• Ben Gripaios ( email , phone +44 (0)1223 76 1014) for theoretical research.

The University also has a lot of information for Prospective Graduate Students .

Related links

• Cavendish Admissions
• Cambridge University Admissions

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Graduate Applications

The CQIF includes four members of DAMTP Faculty, two affiliated members, and several senior researchers.

We always have to turn away some outstanding applicants: if you are considering applying to us you should also apply widely elsewhere. Applicants who are not UK citizens should also carefully consider the information about funding below, and note the very early deadlines for applications for funding from Foundations and Trusts. Applications to start a PhD in October 2022 will be considered from November 2021 onwards.

Successful applicants are likely to have a first class undergraduate degree in mathematics, physics or computer science, and should ideally also have an M.Sc. or equivalent qualification. Candidates considering applying directly from an undergraduate degree are encouraged to consider applying first to take Cambridge's one-year Masters-level course, the Master of Advanced Study in Mathematics (Part III of the Cambridge Mathematics Tripos). The course includes one or more lecture courses on aspects of quantum information and foundations, as well as courses on a wide variety of other topics in theoretical physics and pure and applied mathematics.

Applications from graduate students to research centres in DAMTP are handled by the Board of Graduate Studies in the first instance, and then administered by the department. Applications for PhD places should thus be made to the Board of Graduate Studies in the first instance, specifying an interest in working at the CQIF in DAMTP. The information needed can all be found on this page . Note that the timetable for applications has some very early application deadlines.

The University's admissions process is quite slow and, beyond the initial acknowledgment of receipt of your application, past experience suggests it could be as late as May before you hear any more from the University. Once the application process has started, your application can be tracked using your self-service account .

Applications for the Part III course should also be made to the Board of Graduate Studies. The information needed can be found on this page .

Our standard method of funding UK and EU graduate students is by grants from the UK Engineering and Physical Sciences Research Council. These are allocated by the department, mostly after the Part III results in mid to late June. EPSRC studentships provide full support for UK students, and cover tuition fees for EU students from outside the UK.

There are some other possible sources for funding (which are not generally restricted to EU students): for example the Gates Foundation, the Cambridge Commonwealth Trust, and a small number of the wealthier Cambridge Colleges. Decisions on these scholarships are made in May. Unfortunately (at least for us!), these funding sources are entirely outside our control or influence; in particular there is nothing we can do to get a decision from them sooner than May. Applications to these organisations and institutions need to be made separately. The University's Board of Graduate Studies web pages --- reached from the above-mentioned links --- have some information; anyone needing clarification or advice should contact either them or the relevant organisation. We have no independent sources of support for non-EU students.

While we try to be helpful where possible, there is normally little that we can add to the information given here. We cannot generally comment in advance on the chances of any individual application to the CQIF being successful or offer advice in putting together an application. Applicants may find it helpful, though, to look at the information on our group web pages, and especially useful to look at some of the recent papers of CQIF members, which can mostly be found on the quantum physics archive . (Some recent papers are also linked from CQIF members' personal pages on this site.)

We normally interview  selected candidates once applications have been reviewed: the timetable for these varies from year to year.

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Job Opportunities

Ray dolby professorship of theoretical and experimental physics.

The Board of Electors to the Ray Dolby Professorship of Theoretical and Experimental Physics invite applications for this Professorship from persons whose work falls within the general field of the Professorship to take up appointment as soon as possible.

Candidates will have an outstanding research record of international stature in the broader field of quantum phenomena and technologies, including but not limited to development of novel quantum devices, precision measurements at the quantum level, and investigations of topological and layered materials and devices. The candidate will also have the vision, leadership, experience and enthusiasm to build on current strengths in maintaining and developing a leading research presence. They will hold a PhD or equivalent postgraduate qualification.

Standard professorial duties include teaching and research, examining, supervision and administration. The Professor will be based in Cambridge. A competitive salary will be offered.

Click the 'Apply' button below to register an account with our recruitment system (if you have not already) and apply online.

Further information is available at: http://www.hr.admin.cam.ac.uk/professorships or contact the Human Resources, University Offices, The Old Schools, Cambridge, CB2 1TT, (email: [email protected] ).

Applications, consisting of a letter of application, a statement of current and future research plans, a curriculum vitae and a publications list, along with details of three referees should be made online no later than 12 September 2024.

Informal enquiries may be directed to Professor Mete Atatüre, Head of Department of Physics and Convenor of Board of Electors.

Please quote reference KA41639 on your application and in any correspondence about this vacancy.

The University actively supports equality, diversity and inclusion and encourages applications from all sections of society.

The University has a responsibility to ensure that all employees are eligible to live and work in the UK.

Ray Dolby Professorship of Theoretical and Experimental Physics

University of cambridge - department of physics.

The Board of Electors to the Ray Dolby Professorship of Theoretical and Experimental Physics invite applications for this Professorship from persons whose work falls within the general field of the Professorship to take up appointment as soon as possible.

Candidates will have an outstanding research record of international stature in the broader field of quantum phenomena and technologies, including but not limited to development of novel quantum devices, precision measurements at the quantum level, and investigations of topological and layered materials and devices. The candidate will also have the vision, leadership, experience and enthusiasm to build on current strengths in maintaining and developing a leading research presence. They will hold a PhD or equivalent postgraduate qualification.

Standard professorial duties include teaching and research, examining, supervision and administration. The Professor will be based in Cambridge. A competitive salary will be offered.

To apply online for this vacancy and to view further information about the role, please click the 'Apply' button above.

Further information is available at: http://www.hr.admin.cam.ac.uk/professorships  or contact the Human Resources, University Offices, The Old Schools, Cambridge, CB2 1TT, (email: [email protected] ).

Applications, consisting of a letter of application, a statement of current and future research plans, a curriculum vitae and a publications list, along with details of three referees should be made online no later than 12 September 2024.

Informal enquiries may be directed to Professor Mete Atatüre, Head of Department of Physics and Convenor of Board of Electors.

Please quote reference KA41639 on your application and in any correspondence about this vacancy.

The University actively supports equality, diversity and inclusion and encourages applications from all sections of society.

The University has a responsibility to ensure that all employees are eligible to live and work in the UK.

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MASt in Mathematics (Theoretical Physics)

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Course closed:

Mathematics (Theoretical Physics) is no longer accepting new applications.

This course is an application stream for the Master of Advanced Study (MASt) in Mathematics; students should apply to only one of the application streams for this course.

This course, commonly referred to as Part III, is a nine-month taught masters course in mathematics. It is excellent preparation for mathematical research and it is also a valuable course in mathematics and its applications for those who want further training before taking posts in industry, teaching, or research establishments.

Students admitted from outside Cambridge to Part III study towards the Master of Advanced Study (MASt). Students continuing from the Cambridge Mathematical Tripos for a fourth-year study towards the Master of Mathematics (MMath). The requirements and course structure for Part III are the same for all students irrespective of whether they are studying for the MASt or MMath degree, or whether they applied through the Applied Mathematics (MASA), Pure Mathematics (MASP), Mathematical Statistics (MASS), or Theoretical Physics (MASTH) application stream.

There are around 280 Part III (MASt and MMath) students each year; almost all are in their fourth or fifth year of university studies. Each year the Faculty offers up to 80 lecture courses in Part III, covering an extensive range of pure mathematics, probability, statistics, applied mathematics and theoretical physics. They are designed to cover those advanced parts of the subjects that are not normally covered in a first-degree course, but which are an indispensable preliminary to independent study and research. Students have a wide choice of the combination of courses they take, though naturally, they tend to select groups of cognate courses. Examples classes and associated marking of (unassessed) example sheets are provided as complementary support to lectures.

As a taught masters course, the main emphasis is on lecture courses, and assessment is almost entirely based on written exams, which are normally taken at the end of the academic year starting in the last week of May, alongside a mathematical essay, normally due in early May. The standard graduation dates for successful candidates are usually in June and July.

Learning Outcomes

After completing Part III, students will be expected to have:

• studied advanced material in the mathematical sciences to a level not normally covered in a first degree;
• further developed the capacity for independent study of mathematics and problem-solving at a higher level; and
• undertaken an extended essay normally chosen from a list covering a wide range of topics.

Students are also expected to have acquired general transferable skills relevant to mathematics as outlined in the Faculty Transferable Skills Statement.

MASt students wishing to apply for a PhD at Cambridge must apply via the Postgraduate Admissions webpage for readmission by the relevant deadline. Details of entry requirements can be found in the relevant course listings on this site.

Applications to study in either of the Mathematics Departments will be considered on a case-by-case basis and offer of a place will usually include an academic condition based on Part III results.

The Postgraduate Virtual Open Day usually takes place at the end of October. It’s a great opportunity to ask questions to admissions staff and academics, explore the Colleges virtually, and to find out more about courses, the application process and funding opportunities. Visit the Postgraduate Open Day page for more details.

Details of activities hosted by the Faculty of Mathematics can be found on the Faculty website .

Departments

This course is advertised in the following departments:

• Faculty of Mathematics
• Department of Applied Mathematics and Theoretical Physics

Key Information

9 months full-time, study mode : taught, master of advanced study, department of applied mathematics and theoretical physics this course is advertised in multiple departments. please see the overview tab for more details., course - related enquiries, application - related enquiries, course on department website, dates and deadlines:, michaelmas 2024 (closed).

Some courses can close early. See the Deadlines page for guidance on when to apply.

Funding Deadlines

These deadlines apply to applications for courses starting in Michaelmas 2024, Lent 2025 and Easter 2025.

Similar Courses

• Mathematics (Mathematical Statistics) MASt
• Mathematics (Applied Mathematics) MASt
• Mathematics (Pure Mathematics) MASt
• Mathematics MPhil
• Pure Mathematics and Mathematical Statistics PhD

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Five MIT faculty elected to the National Academy of Sciences for 2024

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The National Academy of Sciences has elected 120 members and 24 international members, including five faculty members from MIT. Guoping Feng, Piotr Indyk, Daniel J. Kleitman, Daniela Rus, and Senthil Todadri were elected in recognition of their “distinguished and continuing achievements in original research.” Membership to the National Academy of Sciences is one of the highest honors a scientist can receive in their career.

Among the new members added this year are also nine MIT alumni, including Zvi Bern ’82; Harold Hwang ’93, SM ’93; Leonard Kleinrock SM ’59, PhD ’63; Jeffrey C. Lagarias ’71, SM ’72, PhD ’74; Ann Pearson PhD ’00; Robin Pemantle PhD ’88; Jonas C. Peters PhD ’98; Lynn Talley PhD ’82; and Peter T. Wolczanski ’76. Those elected this year bring the total number of active members to 2,617, with 537 international members.

The National Academy of Sciences is a private, nonprofit institution that was established under a congressional charter signed by President Abraham Lincoln in 1863. It recognizes achievement in science by election to membership, and — with the National Academy of Engineering and the National Academy of Medicine — provides science, engineering, and health policy advice to the federal government and other organizations.

Guoping Feng

Guoping Feng is the James W. (1963) and Patricia T. Poitras Professor in the Department of Brain and Cognitive Sciences. He is also associate director and investigator in the McGovern Institute for Brain Research, a member of the Broad Institute of MIT and Harvard, and director of the Hock E. Tan and K. Lisa Yang Center for Autism Research.

His research focuses on understanding the molecular mechanisms that regulate the development and function of synapses, the places in the brain where neurons connect and communicate. He’s interested in how defects in the synapses can contribute to psychiatric and neurodevelopmental disorders. By understanding the fundamental mechanisms behind these disorders, he’s producing foundational knowledge that may guide the development of new treatments for conditions like obsessive-compulsive disorder and schizophrenia.

Feng received his medical training at Zhejiang University Medical School in Hangzhou, China, and his PhD in molecular genetics from the State University of New York at Buffalo. He did his postdoctoral training at Washington University at St. Louis and was on the faculty at Duke University School of Medicine before coming to MIT in 2010. He is a member of the American Academy of Arts and Sciences, a fellow of the American Association for the Advancement of Science, and was elected to the National Academy of Medicine in 2023.

Piotr Indyk

Piotr Indyk is the Thomas D. and Virginia W. Cabot Professor of Electrical Engineering and Computer Science. He received his magister degree from the University of Warsaw and his PhD from Stanford University before coming to MIT in 2000.

Indyk’s research focuses on building efficient, sublinear, and streaming algorithms. He’s developed, for example, algorithms that can use limited time and space to navigate massive data streams, that can separate signals into individual frequencies faster than other methods, and can address the “nearest neighbor” problem by finding highly similar data points without needing to scan an entire database. His work has applications on everything from machine learning to data mining.

He has been named a Simons Investigator and a fellow of the Association for Computer Machinery. In 2023, he was elected to the American Academy of Arts and Sciences.

Daniel J. Kleitman

Daniel Kleitman, a professor emeritus of applied mathematics, has been at MIT since 1966. He received his undergraduate degree from Cornell University and his master's and PhD in physics from Harvard University before doing postdoctoral work at Harvard and the Niels Bohr Institute in Copenhagen, Denmark.

Kleitman’s research interests include operations research, genomics, graph theory, and combinatorics, the area of math concerned with counting. He was actually a professor of physics at Brandeis University before changing his field to math, encouraged by the prolific mathematician Paul Erdős. In fact, Kleitman has the rare distinction of having an Erdős number of just one. The number is a measure of the “collaborative distance” between a mathematician and Erdős in terms of authorship of papers, and studies have shown that leading mathematicians have particularly low numbers.

He’s a member of the American Academy of Arts and Sciences and has made important contributions to the MIT community throughout his career. He was head of the Department of Mathematics and served on a number of committees, including the Applied Mathematics Committee. He also helped create web-based technology and an online textbook for several of the department’s core undergraduate courses. He was even a math advisor for the MIT-based film “Good Will Hunting.”

Daniela Rus

Daniela Rus, the Andrew (1956) and Erna Viterbi Professor of Electrical Engineering and Computer Science, is the director of the Computer Science and Artificial Intelligence Laboratory (CSAIL). She also serves as director of the Toyota-CSAIL Joint Research Center.

Her research on robotics, artificial intelligence, and data science is geared toward understanding the science and engineering of autonomy. Her ultimate goal is to create a future where machines are seamlessly integrated into daily life to support people with cognitive and physical tasks, and deployed in way that ensures they benefit humanity. She’s working to increase the ability of machines to reason, learn, and adapt to complex tasks in human-centered environments with applications for agriculture, manufacturing, medicine, construction, and other industries. She’s also interested in creating new tools for designing and fabricating robots and in improving the interfaces between robots and people, and she’s done collaborative projects at the intersection of technology and artistic performance.

Rus received her undergraduate degree from the University of Iowa and her PhD in computer science from Cornell University. She was a professor of computer science at Dartmouth College before coming to MIT in 2004. She is part of the Class of 2002 MacArthur Fellows; was elected to the National Academy of Engineering and the American Academy of Arts and Sciences; and is a fellow of the Association for Computer Machinery, the Institute of Electrical and Electronics Engineers, and the Association for the Advancement of Artificial Intelligence.

Senthil Todadri

Senthil Todadri, a professor of physics, came to MIT in 2001. He received his undergraduate degree from the Indian Institute of Technology in Kanpur and his PhD from Yale University before working as a postdoc at the Kavli Institute for Theoretical Physics in Santa Barbara, California.

Todadri’s research focuses on condensed matter theory. He’s interested in novel phases and phase transitions of quantum matter that expand beyond existing paradigms. Combining modeling experiments and abstract methods, he’s working to develop a theoretical framework for describing the physics of these systems. Much of that work involves understanding the phenomena that arise because of impurities or strong interactions between electrons in solids that don’t conform with conventional physical theories. He also pioneered the theory of deconfined quantum criticality, which describes a class of phase transitions, and he discovered the dualities of quantum field theories in two dimensional superconducting states, which has important applications to many problems in the field.

Todadri has been named a Simons Investigator, a Sloan Research Fellow, and a fellow of the American Physical Society. In 2023, he was elected to the American Academy of Arts and Sciences

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• Brain and cognitive sciences
• Mathematics
• Broad Institute
• Computer Science and Artificial Intelligence Laboratory (CSAIL)
• McGovern Institute
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