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PhD Program

A PhD degree in Physics is awarded in recognition of significant and novel research contributions, extending the boundaries of our knowledge of the physical universe. Selected applicants are admitted to the PhD program of the UW Department of Physics, not to a specific research group, and are encouraged to explore research opportunities throughout the Department.

Degree Requirements

Typical timeline, advising and mentoring, satisfactory progress, financial support, more information.

Applicants to the doctoral program are expected to have a strong undergraduate preparation in physics, including courses in electromagnetism, classical and quantum mechanics, statistical physics, optics, and mathematical methods of physics. Further study in condensed matter, atomic, and particle and nuclear physics is desirable. Limited deficiencies in core areas may be permissible, but may delay degree completion by as much as a year and are are expected to remedied during the first year of graduate study.

The Graduate Admissions Committee reviews all submitted applications and takes a holistic approach considering all aspects presented in the application materials. Application materials include:

• Resume or curriculum vitae, describing your current position or activities, educational and professional experience, and any honors awarded, special skills, publications or research presentations.
• Statement of purpose, one page describing your academic purpose and goals.
• Personal history statement (optional, two pages max), describing how your personal experiences and background (including family, cultural, or economic aspects) have influenced your intellectual development and interests.
• Three letters of recommendation: submit email addresses for your recommenders at least one month ahead of deadline to allow them sufficient time to respond.
• Transcripts (unofficial), from all prior relevant undergraduate and graduate institutions attended. Admitted applicants must provide official transcripts.
• English language proficiency is required for graduate study at the University of Washington. Applicants whose native language is not English must demonstrate English proficiency. The various options are specified at: https://grad.uw.edu/policies/3-2-graduate-school-english-language-proficiency-requirements/ Official test scores must be sent by ETS directly to the University of Washington (institution code 4854) and be received within two years of the test date.

For additional information see the UW Graduate School Home Page , Understanding the Application Process , and Memo 15 regarding teaching assistant eligibility for non-native English speakers.

The GRE Subject Test in Physics (P-GRE) is optional in our admissions process, and typically plays a relatively minor role.  Our admissions system is holistic, as we use all available information to evaluate each application. If you have taken the P-GRE and feel that providing your score will help address specific gaps or otherwise materially strengthen your application, you are welcome to submit your scores. We emphasize that every application will be given full consideration, regardless of whether or not scores are submitted.

Applications are accepted annually for autumn quarter admissions (only), and must be submitted online. Admission deadline: DECEMBER 15, 2024.

Department standards

Course requirements.

Students must plan a program of study in consultation with their faculty advisor (either first year advisor or later research advisor). To establish adequate breadth and depth of knowledge in the field, PhD students are required to pass a set of core courses, take appropriate advanced courses and special topics offerings related to their research area, attend relevant research seminars as well as the weekly department colloquium, and take at least two additional courses in Physics outside their area of speciality. Seeking broad knowledge in areas of physics outside your own research area is encouraged.

The required core courses are:

In addition, all students holding a teaching assistantship (TA) must complete Phys 501 / 502 / 503 , Tutorials in Teaching Physics.

Regularly offered courses which may, depending on research area and with the approval of the graduate program coordinator, be used to satisfy breadth requirements, include:

• Phys 506 Numerical Methods
• Phys 555 Cosmology & Particle Astrophysics
• Phys 507 Group Theory
• Phys 557 High Energy Physics
• Phys 511 Topics in Contemporary Physics
• Phys 560 Nuclear Theory
• Phys 520 Quantum Information
• Phys 564 General Relativity
• Phys 550 Atomic Physics
• Phys 567 Condensed Matter Physics
• Phys 554 Nuclear Astrophysics
• Phys 570 Quantum Field Theory

Graduate exams

Master's Review:   In addition to passing all core courses, adequate mastery of core material must be demonstrated by passing the Master's Review. This is composed of four Master's Review Exams (MREs) which serve as the final exams in Phys 524 (SM), Phys 514 (EM), Phys 518 (QM), and Phys 505 (CM). The standard for passing each MRE is demonstrated understanding and ability to solve multi-step problems; this judgment is independent of the overall course grade. Acceptable performance on each MRE is expected, but substantial engagement in research allows modestly sub-par performance on one exam to be waived. Students who pass the Master's Review are eligible to receive a Master's degree, provided the Graduate School course credit and grade point average requirements have also been satisfied.

General Exam:   Adequate mastery of material in one's area of research, together with demonstrated progress in research and a viable plan to complete a PhD dissertation, is assessed in the General Exam. This is taken after completing all course requirements, passing the Master's Review, and becoming well established in research. The General Exam consists of an oral presentation followed by an in-depth question period with one's dissertation committee.

Final Oral Exam:   Adequate completion of a PhD dissertation is assessed in the Final Oral, which is a public exam on one's completed dissertation research. The requirement of surmounting a final public oral exam is an ancient tradition for successful completion of a PhD degree.

Graduate school requirements

Common requirements for all doctoral degrees are given in the Graduate School Degree Requirements and Doctoral Degree Policies and Procedures pages. A summary of the key items, accurate as of late 2020, is as follows:

• A minimum of 90 completed credits, of which at least 60 must be completed at the University of Washington. A Master's degree from the UW or another institution in physics, or approved related field of study, may substitute for 30 credits of enrollment.
• At least 18 credits of UW course work at the 500 level completed prior to the General Examination.
• At least 18 numerically graded UW credits of 500 level courses and approved 400 level courses, completed prior to the General Examination.
• At least 60 credits completed prior to scheduling the General Examination. A Master's degree from the UW or another institution may substitute for 30 of these credits.
• A minimum of 27 dissertation (or Physics 800) credits, spread out over a period of at least three quarters, must be completed. At least one of those three quarters must come after passing the General Exam. Except for summer quarters, students are limited to a maximum of 10 dissertation credits per quarter.
• A minimum cumulative grade point average (GPA) of 3.00 must be maintained.
• The General Examination must be successfully completed.
• A thesis dissertation approved by the reading committee and submitted and accepted by the Graduate School.
• The Final Examination must be successfully completed. At least four members of the supervisory committee, including chair and graduate school representative, must be present.
• Registration as a full- or part-time graduate student at the University must be maintained, specifically including the quarter in which the examinations are completed and the quarter in which the degree is conferred. (Part-time means registered for at least 2 credits, but less than 10.)
• All work for the doctoral degree must be completed within ten years. This includes any time spend on leave, as well as time devoted to a Master's degree from the UW or elsewhere (if used to substitute for credits of enrollment).
• Pass the required core courses: Phys 513 , 517 , 524 & 528 autumn quarter, Phys 514 , 518 & 525 winter quarter, and Phys 515 , 519 & 505 spring quarter. When deemed appropriate, with approval of their faculty advisor and graduate program coordinator, students may elect to defer Phys 525 , 515 and/or 519 to the second year in order to take more credits of Phys 600 .
• Sign up for and complete one credit of Phys 600 with a faculty member of choice during winter and spring quarters.
• Pass the Master's Review by the end of spring quarter or, after demonstrating substantial research engagement, by the end of the summer.
• Work to identify one's research area and faculty research advisor. This begins with learning about diverse research areas in Phys 528 in the autumn, followed by Phys 600 independent study with selected faculty members during winter, spring, and summer.
• Pass the Master's Review (if not already done) by taking any deferred core courses or retaking MREs as needed. The Master's Review must be passed before the start of the third year.
• Settle in and become fully established with one's research group and advisor, possibly after doing independent study with multiple faculty members. Switching research areas during the first two years is not uncommon.
• Complete all required courses. Take breadth courses and more advanced graduate courses appropriate for one's area of research.
• Perform research.
• Establish a Supervisory Committee within one year after finding a compatible research advisor who agrees to supervise your dissertation work.
• Take breadth and special topics courses as appropriate.
• Take your General Exam in the third or fourth year of your graduate studies.
• Register for Phys 800 (Doctoral Thesis Research) instead of Phys 600 in the quarters during and after your general exam.
• Take special topics courses as appropriate.
• Perform research. When completion of a substantial body of research is is sight, and with concurrence of your faculty advisor, start writing a thesis dissertation.
• Establish a dissertation reading committee well in advance of scheduling the Final Examination.
• Schedule your Final Examination and submit your PhD dissertation draft to your reading committee at least several weeks before your Final Exam.
• Take your Final Oral Examination.
• After passing your Final Exam, submit your PhD dissertation, as approved by your reading committee, to the Graduate School, normally before the end of the same quarter.

This typical timeline for competing the PhD applies to students entering the program with a solid undergraduate preparation, as described above under Admissions. Variant scenarios are possible with approval of the Graduate Program coordinator. Two such scenarios are the following:

• Students entering with insufficient undergraduate preparation often require more time. It is important to identify this early, and not feel that this reflects on innate abilities or future success. Discussion with one's faculty advisor, during orientation or shortly thereafter, may lead to deferring one or more of the first year required courses and corresponding Master's Review Exams. It can also involve taking selected 300 or 400 level undergraduate physics courses before taking the first year graduate level courses. This must be approved by the Graduate Program coordinator, but should not delay efforts to find a suitable research advisor. The final Master's Review decision still takes place no later than the start of the 3rd year and research engagement is an important component in this decision.
• Entering PhD students with advanced standing, for example with a prior Master's degree in Physics or transferring from another institution after completing one or more years in a Physics PhD program, may often graduate after 3 or 4 years in our program. After discussion with your faculty advisor and with approval of the Graduate Program coordinator, selected required classes may be waived (but typically not the corresponding Master's Review Exams), and credit from other institutions transferred.
• Each entering PhD student is assigned a first year faculty advisor, with whom they meet regularly to discuss course selection, general progress, and advice on research opportunities. The role of a student's primary faculty advisor switches to their research advisor after they become well established in research. Once their doctoral supervisory committee is formed, the entire committee, including a designated faculty mentor (other than the research advisor) is available to provide advice and mentoring.
• The department also has a peer mentoring program, in which first-year students are paired with more senior students who have volunteered as mentors. Peer mentors maintain contact with their first-year mentees throughout the year and aim to ease the transition to graduate study by sharing their experiences and providing support and advice. Quarterly "teas" are held to which all peer mentors and mentees are invited.
• While academic advising is primarily concerned with activities and requirements necessary to make progress toward a degree, mentoring focuses on the human relationships, commitments, and resources that can help a student find success and fulfillment in academic and professional pursuits. While research advisors play an essential role in graduate study, the department considers it inportant for every student to also have available additional individuals who take on an explicit mentoring role.
• Students are expected to meet regularly, at a minimum quarterly, with their faculty advisors (either first year advisor or research advisor).
• Starting in the winter of their first year, students are expected to be enrolled in Phys 600 .
• Every spring all students, together with their advisors, are required to complete an annual activities report.
• The doctoral supervisory committee needs to be established at least by the end of the fourth year.
• The General Exam is expected to take place during the third or fourth year.
• Students and their advisors are expected to aim for not more than 6 years between entry into the Physics PhD program and completion of the PhD. In recent years the median time is close to 6 years.

Absence of satisfactory progress can lead to a hierarchy of actions, as detailed in the Graduate School Memo 16: Academic Performance and Progress , and may jeopardize funding as a teaching assistant.

The Department aims to provide financial support for all full-time PhD students making satisfactory progress, and has been successful in doing so for many years. Most students are supported via a mix teaching assistantships (TAs) and research assistantships (RAs), although there are also various scholarships, fellowships, and awards that provide financial support. Teaching and research assistanships provide a stipend, a tuition waiver, and health insurance benefits. TAs are employed by the University to assist faculty in their teaching activities. Students from non-English-speaking countries must pass English proficiency requirements . RAs are employed by the Department to assist faculty with specified research projects, and are funded through research grants held by faculty members.

Most first-year students are provided full TA support during their first academic year as part of their admission offer. Support beyond the second year is typically in the form of an RA or a TA/RA combination. It is the responsibility of the student to find a research advisor and secure RA support. Students accepting TA or RA positions are required to register as full-time graduate students (a minimum of 10 credits during the academic year, and 2 credits in summer quarter) and devote 20 hours per week to their assistantship duties. Both TAs and RAs are classified as Academic Student Employees (ASE) . These positions are governed by a contract between the UW and the International Union, United Automobile, Aerospace and Agricultural Implement Workers of America (UAW), and its Local Union 4121 (UAW).

Physics PhD students are paid at the "Assistant" level (Teaching Assistant or Research Assistant) upon entry to the program. Students receive a promotion to "Associate I" (Predoctoral Teaching Associate I or Predoctoral Research Associate I) after passing the Master's Review, and a further promotion to "Associate II" (Predoctoral Teaching Associate II or Predoctoral Research Associate II) after passing their General Examination. (Summer quarter courses, and summer quarter TA employment, runs one month shorter than during the academic year. To compendate, summer quarter TA salaries are increased proportionately.)

• UW Physics Department fact sheet .
• MyPhys , UW Physics Department intranet with policies and information for enrolled students.
• UW Graduate School information for students and postdocs.
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Doctoral Program (Ph.D.)

• Graduate Programs

The Physics Ph.D. program provides students with opportunities to perform independent research in some of the most current and dynamic areas of physics. Students develop a solid and broad physics knowledge base in the first year through the core curriculum, departmental colloquia, and training.

Upper-level courses and departmental seminar series subsequently provide more specialized exposure. Armed with the core knowledge, doctoral students join a research group working in an area of particular interest. This research is performed in very close collaboration with one or more faculty whose interests span a wide range of physics fields.

Sc.M. en route to Ph.D.

Eight courses from the core group (PHYS2010, 2030, 2040, 2050, 2060, 2140: techniques in experimental physics, classical theoretical physics, quantum mechanics, statistical mechanics) and other 2000-level courses. Up to two research courses. Courses from outside the department might be substituted with the permission of the DGS.

All core courses, four advanced courses, comprehensive examination, preliminary examination, faculty-supervised research, dissertation and oral defense.

Applicants are expected to have a strong background in physics or closely related subjects at the undergraduate level. All applications are evaluated holistically to assess the applicant's preparation and potential for graduate coursework and independent research, which can be demonstrated in multiple ways.

The Physics Subject GRE scores are  required  (general GRE scores are not required).

Three recommendation letters from faculty or others acquainted with the applicant's academic and/or research qualifications are required.

If you have submitted an application and need to make changes or add to the application, do not send the materials to the Physics department. The department is unable to alter or add to your application. Contact the  Graduate School staff  for all changes.  

Ph.D. Program Milestones and Guideposts

• Work toward joining a research group
• Pass 3 courses per semester if a TA or 4 courses per semester if a Fellow with at least 50% B's or better
• Complete 6 core courses (PHYS 2010, 2030, 2040, 2050, 2060, 2140)
• Begin research
• Complete PHYS2010 (or other core courses) if not taken during Year 1
• Complete at least 2 advanced courses
• Pass qualifying exam
• Complete 2nd Year Ethics Training
• Identify prelim committee
• Continue research
• Complete remaining advanced courses
• Pass preliminary exam and advance to candidacy
• Complete thesis research
• Write and defend thesis

Ph.D. Resources

• Ph.D. Program Student Handbook
• Graduate Core Course Listing
• Finding a Research Group
• Comprehensive Exam Information
• Ph.D. Second Year Ethics Training Requirement
• Ph.D. Preliminary Exam Requirements and Guidelines
• Ph.D. Prelim Form
• Physics Department Defense Form
• Ph.D. Dissertation Defense Requirements and Guidelines
• Ph.D. Course Waiver/Permission Form

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Graduate studies, commencement 2019.

The Harvard Department of Physics offers students innovative educational and research opportunities with renowned faculty in state-of-the-art facilities, exploring fundamental problems involving physics at all scales. Our primary areas of experimental and theoretical research are atomic and molecular physics, astrophysics and cosmology, biophysics, chemical physics, computational physics, condensed-matter physics, materials science, mathematical physics, particle physics, quantum optics, quantum field theory, quantum information, string theory, and relativity.

Our talented and hardworking students participate in exciting discoveries and cutting-edge inventions such as the ATLAS experiment, which discovered the Higgs boson; building the first 51-cubit quantum computer; measuring entanglement entropy; discovering new phases of matter; and peering into the ‘soft hair’ of black holes.

Our students come from all over the world and from varied educational backgrounds. We are committed to fostering an inclusive environment and attracting the widest possible range of talents.

We have a flexible and highly responsive advising structure for our PhD students that shepherds them through every stage of their education, providing assistance and counseling along the way, helping resolve problems and academic impasses, and making sure that everyone has the most enriching experience possible.The graduate advising team also sponsors alumni talks, panels, and advice sessions to help students along their academic and career paths in physics and beyond, such as “Getting Started in Research,” “Applying to Fellowships,” “Preparing for Qualifying Exams,” “Securing a Post-Doc Position,” and other career events (both academic and industry-related).

We offer many resources, services, and on-site facilities to the physics community, including our electronic instrument design lab and our fabrication machine shop. Our historic Jefferson Laboratory, the first physics laboratory of its kind in the nation and the heart of the physics department, has been redesigned and renovated to facilitate study and collaboration among our students.

Members of the Harvard Physics community participate in initiatives that bring together scientists from institutions across the world and from different fields of inquiry. For example, the Harvard-MIT Center for Ultracold Atoms unites a community of scientists from both institutions to pursue research in the new fields opened up by the creation of ultracold atoms and quantum gases. The Center for Integrated Quantum Materials , a collaboration between Harvard University, Howard University, MIT, and the Museum of Science, Boston, is dedicated to the study of extraordinary new quantum materials that hold promise for transforming signal processing and computation. The Harvard Materials Science and Engineering Center is home to an interdisciplinary group of physicists, chemists, and researchers from the School of Engineering and Applied Sciences working on fundamental questions in materials science and applications such as soft robotics and 3D printing.  The Black Hole Initiative , the first center worldwide to focus on the study of black holes, is an interdisciplinary collaboration between principal investigators from the fields of astronomy, physics, mathematics, and philosophy. The quantitative biology initiative https://quantbio.harvard.edu/  aims to bring together physicists, biologists, engineers, and applied mathematicians to understand life itself. And, most recently, the new program in  Quantum Science and Engineering (QSE) , which lies at the interface of physics, chemistry, and engineering, will admit its first cohort of PhD students in Fall 2022.

We support and encourage interdisciplinary research and simultaneous applications to two departments is permissible. Prospective students may thus wish to apply to the following departments and programs in addition to Physics:

• Department of Astronomy
• Department of Chemistry
• Department of Mathematics
• John A. Paulson School of Engineering and Applied Sciences (SEAS)
• Biophysics Program
• Molecules, Cells and Organisms Program (MCO)

If you are a prospective graduate student and have questions for us, or if you’re interested in visiting our department, please contact  [email protected] .

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2025 Best Physics Doctor's Degree Schools

In 2025, College Factual analyzed 62 schools in order to identify the top ones for its Best Physics Doctor's Degree Schools ranking. Combined, these schools handed out 1,958 doctor's degrees in physics to qualified students.

What's on this page: * Our Methodology

• Best Doctor’s Degree Schools List

Choosing a Great Physics School for Your Doctor's Degree

Quality Overall Is Important

A school that excels in educating for a particular major and degree level must be a great school overall as well. To account for this we consider a college's overall Best Colleges for a Doctor's Degree ranking which itself looks at a combination of various factors like degree completion, educational resources, student body caliber and post-graduation earnings for the school as a whole.

Average Earnings

To determine the overall quality of a graduate school, one factor we look at is the average early-career salary of those receiving their doctor's degree from the school. After all, your doctor's degree won't mean much if it doesn't help you find a job that will help you earn a living.

Other Factors We Consider

The metrics below are just some of the other metrics that we use to determine our rankings.

• Major Focus - How much a school focuses on physics students vs. other majors.
• Major Demand - The number of physics students who choose to seek a doctor's degree at the school.
• Educational Resources - How many resources are allocated to students. These resources may include educational expenditures per student, number of students per instructor, and graduation rate among other things.
• Student Debt - How much debt physics students go into to obtain their doctor's degree and how well they are able to pay back that debt.
• Accreditation - Whether a school is regionally accredited and/or accredited by a recognized physics related body.

Our full ranking methodology documents in more detail how we consider these factors to identify the best schools for physics students working on their doctor's degree.

More Ways to Rank Physics Schools

When choosing the right school for you, it's important to arm yourself with all the facts you can. To that end, we've created a number of major-specific rankings , including this Best Physics Doctor's Degree Schools list to help you make the college decision.

Best Schools for Doctorate Students to Study Physics in the United States

Below you'll see a list of the best colleges and universities for pursuing a doctor's degree in physics. Only those schools that rank in the top 20% of all the schools we analyze get awarded with a place on this list.

12 Top Schools for a Doctorate in Physics

It's difficult to beat Massachusetts Institute of Technology if you wish to pursue a doctor's degree in physics. MIT is a fairly large private not-for-profit school located in the medium-sized city of Cambridge. More information about a doctorate in physics from Massachusetts Institute of Technology

Any student pursuing a degree in a doctor's degree in physics needs to check out Cornell University. Located in the city of Ithaca, Cornell is a private not-for-profit university with a fairly large student population. More information about a doctorate in physics from Cornell University

It is difficult to beat University of Michigan - Ann Arbor if you wish to pursue a doctor's degree in physics. Located in the midsize city of Ann Arbor, U-M is a public university with a very large student population.

Doctorate students who receive their degree from the physics program make about $95,584 in the first couple years of their career.

Any student who is interested in a doctor's degree in physics has to look into Duke University. Duke is a fairly large private not-for-profit university located in the large city of Durham. More information about a doctorate in physics from Duke University

Columbia is a very large private not-for-profit university located in the city of New York. More information about a doctorate in physics from Columbia University in the City of New York

Located in the midsize city of Berkeley, UC Berkeley is a public university with a very large student population.

Physics doctor's degree recipients from University of California - Berkeley earn a boost of about $8,419 above the average earnings of physics majors.

University of Rochester is a fairly large private not-for-profit university located in the medium-sized city of Rochester. More information about a doctorate in physics from University of Rochester

Notre Dame is a fairly large private not-for-profit university located in the large suburb of Notre Dame. More information about a doctorate in physics from University of Notre Dame

UCSB is a very large public university located in the midsize suburb of Santa Barbara. More information about a doctorate in physics from University of California - Santa Barbara

University of Arizona is a fairly large public university located in the large city of Tucson. More information about a doctorate in physics from University of Arizona

Located in the large city of La Jolla, UCSD is a public university with a fairly large student population.

Students who graduate with their doctorate from the physics program state that they receive average early career wages of $89,022.

Located in the large city of Baltimore, Johns Hopkins is a private not-for-profit university with a very large student population. More information about a doctorate in physics from Johns Hopkins University

Honorable Mentions

Here are some additional great schools for Physics students that almost earned our Best Physics Doctor's Degree Schools award.

Physics by Region

View the Best Physics Doctor's Degree Schools for a specific region near you.

Other Rankings

Best associate degrees in physics, best master's degrees in physics, best value in physics, best for non-traditional students in physics, best online in physics, most popular online in physics, best bachelor's degrees in physics, best overall in physics, highest paid grads in physics, best for veterans in physics, most popular in physics, most focused in physics.

View All Rankings >

Physics Related Rankings by Major

Physics is one of 8 different types of Physical Sciences programs to choose from.

Physics Concentrations

Most popular majors related to physics, notes and references.

• The bars on the spread charts above show the distribution of the schools on this list +/- one standard deviation from the mean.
• The Integrated Postsecondary Education Data System ( IPEDS ) from the National Center for Education Statistics (NCES), a branch of the U.S. Department of Education (DOE) serves as the core of the rest of our data about colleges.
• Some other college data, including much of the graduate earnings data, comes from the U.S. Department of Education’s ( College Scorecard ).
• Credit for the banner image above goes to A. T. Service . More about our data sources and methodologies .

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Graduate education in physics offers you exciting opportunities extending over a diverse range of subjects and departments. You will work in state-of-the-art facilities with renowned faculty and accomplished postdoctoral fellows. The interdisciplinary nature of the program provides you with the opportunity to select the path that most interests you. You will be guided by a robust academic advising team to ensure your success.

You will have access to Jefferson Laboratory, the oldest physics laboratory in the country, which today includes a wing designed specifically to facilitate the study and collaboration between you and other physics graduate students.

Students in the program are doing research in many areas, including atomic and molecular physics, quantum optics, condensed-matter physics, computational physics, the physics of solids and fluids, biophysics, astrophysics, statistical mechanics, mathematical physics, high-energy particle physics, quantum field theory, string theory, relativity, and many others.

Graduates of the program have secured academic positions at institutions such as MIT, Stanford University, California Institute of Technology, and Harvard University. Others have gone into private industry at leading organizations such as Google, Facebook, and Apple. 

Additional information on the graduate program is available from the Department of Physics , and requirements for the degree are detailed in Policies . 

Areas of Study

Engineering and Physical Biology | Experimental Astrophysics | Experimental Physics | Theoretical Astrophysics | Theoretical Physics | Unspecified

Admissions Requirements

Please review the admissions requirements and other information before applying. You can find degree program-specific admissions requirements below and access additional guidance on applying from the Department of Physics .

Academic Background

Applicants should be well versed in undergraduate-level physics and mathematics. Typically, applicants will have devoted approximately half of their undergraduate work to physics and related subjects such as mathematics and chemistry. It is desirable for every applicant to have completed at least one year of introductory quantum mechanics classes. An applicant who has a marked interest in a particular branch of physics should include this information in the application. If possible, applicants should also indicate whether they are inclined toward experimental or theoretical (mathematical) research. This statement of preference will not be treated as a binding commitment to any course of study and research. In the Advanced Coursework section of the online application, prospective students must indicate the six most advanced courses (four in physics and two in mathematics) they completed or will complete at their undergraduate institution.

Personal Statement

Not Accepted

Standardized Tests

GRE General: Optional GRE Subject Test: Optional

Theses and Dissertations

Theses & Dissertations for Physics

See list of Physics faculty

APPLICATION DEADLINE

Questions about the program.

• Doing a PhD in Physics
• Doing a PhD

What Is It Like to Do a PhD in Physics?

Physics is arguably the most fundamental scientific discipline and underpins much of our understanding of the universe. Physics is based on experiments and mathematical analysis which aims to investigate the physical laws which make up life as we know it.

Due to the large scope of physics, a PhD project may focus on any of the following subject areas:

• Thermodynamics
• Cosmology and Astrophysics
• Nuclear Physics
• Solid State Physics
• Condensed matter Physics
• Particle Physics
• Quantum mechanics
• Computational Physics
• Theoretical Physics
• Electromagnetism and photonics
• Molecular physics
• And many more

Compared to an undergraduate degree, PhD courses involve original research which, creates new knowledge in a chosen research area. Through this you will develop a detailed understanding of applicable techniques for research, become an expert in your research field, and contribute to extending the boundaries of knowledge.

During your postgraduate study you will be required to produce a dissertation which summarises your novel findings and explains their significance. Postgraduate research students also undertake an oral exam, known as the Viva, where you must defend your thesis to examiners.

Browse PhDs in Physics

Decoherence due to flux noise in superconducting qubits at microkelvin temperatures, in-situ disposal of cementitious wastes at uk nuclear sites, coventry university postgraduate research studentships, discovery of solid state electrolytes using deep learning, observing the black hole mergers in the early universe with next-generation gravitational wave observatories, hear from phd students and doctorates:.

To get a better perspective of what life is really like doing a Physics PhD, read the interview profiles below, from those that have been there before, and are there now:

How Long Does It Take to Get a PhD in Physics?

The typical full-time programme has a course length of 3 to 4 years . Most universities also offer part-time study . The typical part-time programme has a course length of 5 to 7 years.

The typical Physics PhD programme sees PhD students study on a probationary basis during their first year. Admission to the second year of study and enrolment onto the PhD programme is subject to a successful first year review. The format of this review varies across organisations but commonly involves a written report of progress made on your research project and an oral examination.

Additional Learning Modules:

Most Physics PhD programme have no formal requirement for students to attend core courses. There are, however, typically several research seminars, technical lectures, journal clubs and other courses held within the Physics department that students are expected to attend.

Research seminars are commonly arranged throughout your programme to support you with different aspects of your study, for example networking with other postgraduates, guidelines on working with your supervisor, how to avoid bias in independent research, tips for thesis writing, and time management skills.

Doctoral training and development workshops are commonly organised both within and outside of the department and aim to develop students’ transferrable skills (for example communication and team working). Information on opportunities for development that exist within the University and explored and your post doctorate career plans will be discussed.

Lectures run by department staff and visiting scholars on particular subject matters relevant to your research topic are sometimes held, and your supervisor (or supervisory committee) is likely to encourage you to attend.

Typical Entry Requirements:

A UK Physics PhD programme normally requires a minimum upper second-class (2:1) honours undergraduate or postgraduate degree (or overseas equivalent) in physics, or a closely related subject. Closely related subjects vary depending on projects, but mathematics and material sciences are common. Graduate students with relevant work experience may also be considered.

Funded PhD programmes (for examples those sponsored by Doctoral Training Partnerships or by the university school) are more competitive, and hence entry requirements tend to be more demanding.

English Language Requirements:

Universities typically expect international students to provide evidence of their English Language ability as part of their applications. This is usually benchmarked by an IELTS exam score of 6.5 (with a minimum score of 6 in each component), a TOEFL (iBT) exam score 92, a CAE and CPE exam score of 176 or another equivalent. The exact score requirements for the different English Language Qualifications may differ across different universities.

Tips to Improve Your Application:

If you are applying to a Physics PhD, you should have a thorough grasp of the fundamentals of physics, and also appreciate the concepts within the focus of your chosen research topic. Whilst you should be able to demonstrate this through either your Bachelors or Master’s degree, it is also beneficial to also be able to show this through extra-curricular engagement, for example attending seminars or conferences. This will also get across your passion for Physics – a valuable addition to your application as supervisors are looking for committed students.

It is advisable to make informal contact with the project supervisors for any positions you are interested in prior to applying formally. This is a good chance for you to understand more about the Physics department and project itself. Contacting the supervisor also allows you to build a rapport, demonstrate your interest, and see if the project and potential supervisor are a good fit for you. Some universities require you to provide additional evidence to support your application. These can include:

• University certificates and transcripts (translated to English if required)
• Academic CV
• Covering Letter
• English certificate – for international students

How Much Does a Physics PhD Degree Typically Cost?

Annual tuition fees for a PhD in Physics in the UK are approximately £4,000 to £5,000 per year for home (UK) students and are around £22,000 per year for overseas students. This, alongside the standard range in tuition fees that you can expect, is summarised below:

Note: The EU students are considered International from the start of the 2021/22 academic year.

Due to the experimental nature of Physics programmes, research students not funded by UK research councils may also be required to pay a bench fee . Bench fees are additional fees to your tuition, which covers the cost of travel, laboratory materials, computing equipment or resources associated with your research. For physics research students in particular this is likely to involve training in specialist software, laboratory administration, material and sample ordering, and computing upkeep.

What Specific Funding Opportunities Are There for A PhD in Physics?

As a PhD applicant, you may be eligible for a loan of up to £25,700. You can apply for a PhD loan if you’re ordinarily resident in the UK or EU, aged 60 or under when the course starts and are not in receipt of Research Council funding.

Research Councils provide funding for research in the UK through competitive schemes. These funding opportunities cover doctoral students’ tuition fees and sometimes include an additional annual maintenance grant. The Engineering and Physical Sciences Research Council (EPSRC) is a government agency that funds scientific research in the UK. Applications for EPSRC funding should be made directly to the EPSRC, but some Universities also advertise EPSRC funded PhD studentships on their website. The main funding body for Physics PhD studentships is EPSRC’s group on postgraduate support and careers, which has responsibility for postgraduate student support.

The Science and Technology Facilities Council (STFC) funds a large range of projects in Physics and Astronomy. To apply for funding students must locate the relevant project, contact the host institution for details of the postdoctoral researcher they wish to approach and then apply directly to them.

You can use DiscoverPhD’s database to search for a PhD studentship in Physics now.

What Specific Skills Will You Get from a PhD in Physics?

PhD doctorates possess highly marketable skills which make them strong candidates for analytical and strategic roles. The following skills in particular make them attractive prospects to employers in research, finance and consulting:

• Strong numerical skills
• Strong analytical skills
• Laboratory experience
• Application of theoretical concepts to real world problems

Aside from this, postgraduate students will also get transferable skills that can be applied to a much wider range of careers. These include:

• Excellent oral and written communication skills
• Great attention to detail
• Collaboration and teamwork
• Independent thinking

What Jobs Can I Get with a PhD in Physics?

The wide range of specialties within Physics courses alone provides a number of job opportunities, from becoming a meteorologist to a material scientist. However, one of the advantages Physics doctorates have over other doctorates is their studies often provide a strong numerical and analytical foundation. This opens a number of career options outside of traditional research roles. Examples of common career paths Physics PostDocs take are listed below:

Academia – A PhD in Physics is a prerequisite for higher education teaching roles in Physics (e.g. University lecturer). Many doctorates opt to teach and supervise students to continue their contribution to research. This is popular among those who favour the scientific nature of their field and wish to pursue theoretical concepts.

PostDoc Researcher – Other postdoctoral researchers enter careers in research, either academic capacity i.e. researching with their University, or in industry i.e. with an independent organisation. Again, this is suited to those who wish to continue learning, enjoy collaboration and working in an interdisciplinary research group, and also offers travel opportunities for international conferences.

Astronomy – Astronomers study the universe and often work with mathematical formulas, computer modelling and theoretical concepts to predict behaviours. A PhD student in this field may work as astrobiologists, planetary geologists or government advisors.

Finance – As mentioned previously, analytical and numerical skills are the backbone of the scientific approach, and the typical postgraduate research programme in Physics is heavily reliant on numeracy. As such, many PostDocs are found to have financial careers. Financial roles typically offer lucrative salaries.

Consulting – Consulting firms often consider a doctoral student with a background in Physics for employment as ideal for consultancy, based on their critical thinking and strategic planning skills.

How Much Can You Earn with A PhD in Physics?

Data from the HESA is presented below which presents the salary band of UK domiciled leaver (2012/13) in full-time paid UK employment with postgraduate qualifications in Physical Studies:

With a doctoral physics degree, your earning potential will mostly depend on your chosen career path. Due to the wide range of options, it’s impossible to provide an arbitrary value for the typical salary you can expect. However, if you pursue one of the below paths or enter their respective industry, you can roughly expect to earn:

Academic Lecturer

• Approximately £30,000 – £35,000 starting salary
• Approximately £40,000 with a few years experience
• Approximately £45,000 – £55,000 with 10 years experience
• Approximately £60,000 and over with significant experience and a leadership role. Certain academic positions can earn over £80,000 depending on the management duties.

Actuary or Finance

• Approximately £35,000 starting salary
• Approximately £45,000 – £55,000 with a few years experience
• Approximately £70,000 and over with 10 years experience
• Approximately £180,000 and above with significant experience and a leadership role.

Aerospace or Mechanical Engineering

• Approximately £28,000 starting salary
• Approximately £35,000 – £40,000 with a few years experience
• Approximately £60,000 and over with 10 years experience

Data Analyst

• Approximately £45,000 – £50,000 with a few years experience
• Approximately £90,000 and above with significant experience and a leadership role.

Geophysicist

• Approximately £28,000 – £35,000 starting salary
• Approximately £40,000 – £65,000 with a few years’ experience
• Approximately £80,000 and over with significant experience and a leadership role

Medical Physicist

• Approximately £27,500 – £30,000 starting salary
• Approximately £30,000 – £45,000 with a few years’ experience
• Approximately £50,000 and over with significant experience and a leadership role

Meteorologist

• Approximately £20,000 – £25,000 starting salary
• Approximately £25,000 – £35,000 with a few years’ experience
• Approximately £45,000 and over with significant experience and a leadership role

Again, we stress that the above are indicative values only. Actual salaries will depend on the specific organisation and position and responsibilities of the individual.

UK Physics PhD Statistics

The Higher Education Statistics Agency has an abundance of useful statistics and data on higher education in the UK. We have looked at the data from the Destination of Leavers 2016/17 survey to provide information specific for Physics Doctorates:

The graph below shows the destination of 2016/17 leavers with research based postgraduate qualifications in physical sciences. This portrays a very promising picture for Physics doctorates, with 92% of leavers are in work or further study.

The table below presents the destination (sorted by standard industrial classification) of 1015 students entering employment in the UK with doctorates in Physical Studies, from 2012/13 to 2016/17. It can be seen that PhD postdocs have a wide range of career paths, though jobs in education, professional, scientific and technical activities, and manufacturing are common.

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