how to be a physics phd

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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Admissions Information for Prospective Graduate Students

Thank you for considering the PhD program in Physics at MIT. Information regarding our graduate program and our application process can be found below and through the following webpages and other links on this page. If your questions are not answered after reviewing this information, please contact us at [email protected] .

Here are some links to pages relevant to prospective students:

Material Required for a Complete Application , and information about When/How to Apply can be found below on this page.
We have an FAQ which should help to answer many questions, and we provide Application Assistance from staff and students if you don’t find what you need in the FAQ.
Additional Guidance about the application itself, along with examples, can be found on a separate page. The graduate application is available at https://apply.mit.edu/apply/ .
General information about the graduate program and research areas in the physics department may also be of use.
MSRP (MIT Summer Research Program) is designed to give underrepresented and underserved students access to an MIT research experience, pairing each student with a faculty member who will oversee the student conducting a research project at MIT.

Statement regarding admissions process during COVID Pandemic (Updated Summer 2023)

MIT has adopted the following principle: MIT’s admissions committees and offices for graduate and professional schools will take the significant disruptions of the COVID-19 outbreak in 2020 into account when reviewing students’ transcripts and other admissions materials as part of their regular practice of performing individualized, holistic reviews of each applicant.

In particular, as we review applications now and in the future, we will respect decisions regarding the adoption of Pass/No Record (or Credit/No Credit or Pass/Fail) and other grading options during the unprecedented period of COVID-19 disruptions, whether those decisions were made by institutions or by individual students. We also expect that the individual experiences of applicants will richly inform applications and, as such, they will be considered with the entirety of a student’s record.

Ultimately, even in these challenging times, our goal remains to form graduate student cohorts that are collectively excellent and composed of outstanding individuals who will challenge and support one another.

Questions or concerns about this statement should be directed to the Physics Department ( [email protected] ).

Applying to the MIT Department of Physics

We know that the application process can be time-consuming, stressful, and costly. We are committed to reducing these barriers and to helping all applicants receive a full and fair assessment by our faculty reviewers. Help is available from the Physics Graduate Admissions Office at [email protected] and additional assistance from current students is offered during the admissions season. Further details are described at the end of this page in our Assistance for Prospective Applicants section.

The list below describes the important elements of a complete application. Please reach out to us at [email protected] if you have a concern or logistical difficulty that could prevent you from providing your strongest application.

Required for a Complete Application

1. online application and application fee.

MIT Graduate Admissions Online Graduate Application
Application Fee: $90

2. University Transcript(s)

Unofficial transcripts are sufficient for our initial review, with final transcripts required as a condition of matriculation for successful applicants. Applicants should include a scan of their transcript(s) and, if a degree is in progress, should include a list of the class subjects being taken in the current semester. The portal will allow applicants to log back into the application after the deadline to add their Fall term grades when they are available.

Note: We will respect decisions regarding the adoption of Pass/No Record (or Credit/No Credit or Pass/Fail) and other grading options during the unprecedented period of COVID-19 disruptions, whether those decisions were made by institutions or by individual students.

3. Standardized Test Results

GRE Tests : The Physics GRE (PGRE) is recommended but not required for graduate applications. All applications will be given full consideration with or without GRE scores.
TOEFL or IELTS Test or a waiver is required for non-native English speakers. MIT’s TOEFL school code is 3514; the code for the Department of Physics is 76. IELTS does not require a code. Eligibility for TOEFL/IELTS waivers is in our FAQ section .
Self-reported scores are sufficient for our initial application screening, with official scores required for admitted students as a condition of their offer. Applicants should attach a scanned copy of their test score report.

4. Letters of Recommendation

Letters should include any individual work applicants have done and/or areas where they have special strengths. It is possible to submit up to 6 total letters, but 3 are sufficient for a complete application and committee members may evaluate applications based on the first three letters that they read.

5. Statement of Objectives

Research is central to graduate study in physics. The Statement of Objectives/Purpose should include descriptions of research projects, aptitude and achievements as completely as possible. This important part of the application provides an opportunity to describe any interests, skills, and background relative to the research areas selected on the application form. Applicants should share anything that prepares them for graduate studies and describe their proudest achievements.

Additional Application Materials

Research, Teaching, and Community Engagement – Any special background or achievement that prepares the applicant for Physics graduate studies at MIT. This may include research at their undergraduate school as part of their Bachelor or Master degree, or summer research at another program or school. We also value our student’s contributions to their community on a variety of scales (from institutional to societal) and we encourage applicants to tell us about their teaching and community engagement activities. The “experience” questions are intended to provide a CV-like listing of achievements, some of which may be elaborated on in the “Statement of Objectives” and/or the optional “Personal Statement”.
Publications, Talks, and Merit Based Recognition – Recognition of success in research, academics, and outreach can take many forms, including publications, talks, honors, prizes, awards, fellowships, etc. This may include current nominations for scholarships or papers submitted for publication.
Optional Personal Statement – Members of our community come from a wide variety of backgrounds and experiences. We welcome any personal information that will help us to evaluate applications holistically and will provide context for the applicant’s academic achievements. This statement may include extenuating circumstances, significant challenges that were overcome, a non-traditional educational background, description of any advocacy or values work, or other information that may be relevant.
Detailed instructions for each application section, and many examples , can be found on the “ Additional Guidance ” page. The detailed instructions are lengthy, and are intended to be read only “as needed” while you work on your application (i.e., you don’t need to go read the whole thing before you start).

When/How to Apply

When : Applications can be submitted between September 15 and December 15 by 11:59pm EST for the following year.

How : The application is online at https://apply.mit.edu/apply/

Application Assistance

Faculty, students, and staff have collaborated to provide extensive guidance to prospective applicants to our graduate degree program, which we detail below:

Our website provides answers to many frequently asked admissions questions
Admissions staff are available for questions at [email protected] . We encourage students to send their questions early in the application process, as staff become increasingly busy with requests as the application deadline approaches!
The Physics Graduate Application Assistance Program ( PhysGAAP ) is run by current graduate students and offers online webinars, office hours, and one-on-one mentoring. Registration is now open for Fall 2024 , and more information is provided below.

Physics Graduate Application Assistance Program (PhysGAAP)

PhysGAAP is a program offering resources for students applying to graduate school, and it was first started to reduce the barriers for application to the MIT Physics PhD program and address the underrepresentation of students from historically excluded communities. Our services include annual webinars about the application process, office hours to answer questions, and a one-on-one mentoring program for students who would benefit from more in-depth, individual assistance. Visit the PhysGAAP website for more information!

Poster containing information and qr code about Signing up for PhysGAAP

The Fall 2024 webinars will be held on October 16th at 9-10am and 4-5pm. Zoom and Slido information will be sent 1 week before the webinar to applicants who have registered for PhysGAAP using this form .

Recordings of past webinars can also be found on our website . Please note past webinars may contain outdated information about some topics, such as GRE requirements.

Office Hours

Our Office Hours are a space where you can briefly chat with an MIT Physics graduate student about questions you may have about applying to graduate school. For example, if you have questions about the specifics of applying to MIT Physics, what materials you need for your application, or other questions that only require a one-time meeting, office hours may be a good option for you.

Information about the Office Hours program will be sent out to those who register for PhysGAAP through this form .

1-on-1 Mentorship

1-on-1 mentoring is offered for students who would benefit from more in-depth individual assistance. Our capacity is limited, so we will give preferential consideration to PhysGAAP Mentorship applicants who would most benefit from the program and can demonstrate that they are a good fit. We therefore ask prospective applicants to start by asking their questions at our webinars and office hours program.

If applicants want further assistance, they may apply to the PhysGAAP Mentorship Program, which pairs prospective graduate school applicants with current graduate students who can provide feedback on their application and insight into graduate school and the MIT Physics PhD program.

Applications for the PhysGAAP Mentorship Program will open later in the Fall and are expected to close in early-mid November . To stay up to date on when the applications open, please register for PhysGAAP through this form .

Please note that participation in PhysGAAP is not considered during admissions review. It helps applicants put forward their strongest materials, but does not guarantee admission into our graduate program.

Admissions/Application FAQs

Our Frequently Asked Questions provide further information about degree requirements, funding, educational background, application deadlines, English language proficiency, program duration, start dates and deferrals, and fee waiver requests.

The MOST Frequently Asked Question…

What is included in a strong graduate application for physics at mit.

Applications are assessed holistically and many variables are considered in the application review process. The following four main factors are required for a complete application.

the applicant’s statement of objectives or purpose,
transcripts of past grades,
score reports of any required standardized tests,
three letters of reference.

In addition, any past research experience, publications, awards, and honors are extremely helpful, particularly if they are in the area(s) of the applicant’s interest(s). Applicants may also include a personal statement in their application to provide context as the materials are assessed.

Applications are routed to admission committee members and other faculty readers using the “areas of interest” and any faculty names selected from the menu as well as based on the research interests included in the statement of objectives. Please select the areas of interest that best reflect your goals.

Instructions are available in the application itself , with further guidance on our Additional Guidance page. The Physics Admissions Office will respond to questions sent to [email protected] .

General Questions Regarding the PhD Program in Physics

Must i have a degree in physics in order to apply to this graduate program.

Our successful applicants generally hold a Bachelor of Science degree in Physics, or have taken many Physics classes if they have majored in another discipline. The most common other majors are astronomy, engineering, mathematics, and chemistry. Bachelor of Science degrees may be 3-year or 4-year degrees, depending on the education structure of the country in which they are earned.

What are the requirements to complete a PhD?

The requirements for a PhD in Physics at MIT are the doctoral examination, a few required subject classes, and a research-based thesis. The doctoral examination consists of a written and an oral examination. The written component may be satisfied either by passing the 4 subject exams or by passing designated classes related to each topic with a qualifying grade; the oral exam will be given in a student’s chosen research area. The Physics Department also requires that each student take two classes in the field of specialization and two physics-related courses in fields outside the specialty. Research for the thesis is conducted throughout the student’s time in the program, culminating in a thesis defense and submission of the final thesis.

Can I take courses at other schools nearby?

Yes. Cross-registration is available at Harvard University and Wellesley College.

How many years does it take to complete the PhD requirements?

From 3 to 7 years, averaging 5.6 years.

How will I pay for my studies?

Our students are fully supported financially throughout the duration of their program, provided that they make satisfactory progress. Funding is provided from Fellowships (internal and external) and/or Assistantships (research and teaching) and covers tuition, health insurance, and a living stipend. Read more about funding .

Note: For more detailed information regarding the cost of attendance, including specific costs for tuition and fees, books and supplies, housing and food as well as transportation, please visit the Student Financial Services (SFS) website .

How many applications are submitted each year? How many students are accepted?

Although the number varies each year, the Department of Physics usually welcomes approximately 45 incoming graduate students each year. Last year we received more than 1,700 applications and extended fewer than 90 offers of admission.

What are the minimum grades and exam scores for admitted applicants?

There are no minimum standards for overall grade point averages/GPAs. Grades from physics and other related classes will be carefully assessed. Under a special COVID-19 policy, MIT will accept transcripts with a variety of grading conventions, including any special grading given during the COVID-19 pandemic. PGREs (Physics subject GRE) is not required for graduate applications but is recommended.

Our program is conducted in English and all applicants must demonstrate their English language proficiency. Non-native English speakers should review our policy carefully before waiving the TOEFL/IELTS requirements. We do not set a minimum requirement on TOEFL/IELTS scores; however, students who are admitted to our program typically score above the following values:

IELTS – 7
TOEFL (computer based) – 200
TOEFL (iBT) – 100
TOEFL (standard) – 600

The Application Process

When is the deadline for applying to the phd program in physics.

Applications for enrollment in the fall are due each year by 11:59pm EST on December 15 of the preceding year. There is no admission cycle for spring-term enrollment.

The COVID-19 pandemic has made it difficult for me to take tests in person. Can I still apply?

PGRE (Physics subject GRE) is not required for graduate applications but is recommended. Non-native English speakers who are not eligible for a test waiver should include their results from either an in-person or online version of the TOEFL or IELTS test.

Does the Department of Physics provide waivers for the English language exam (TOEFL/IELTS)?

An English language exam (IELTS, TOEFL, TOEFL iBT, or the C2 Cambridge English Proficiency exam) is required of all applicants who are from a country in which English is not the primary language. Exceptions to this policy will be considered for candidates who, at the start of their graduate studies in 2025, will have been in the US or in a country whose official language is English for three years or longer and who will have received a degree from a college or university in a country where the language of education instruction is English. An interview via telephone, Zoom, or Skype may be arranged at the discretion of the Admissions Committee. More information on a possible English Language Waiver Decision (PDF).

Does the Department of Physics provide application fee waivers?

Although we do not want the MIT application fee to be a barrier to admission, we cannot provide application fee waivers to all who request one. The Department of Physics has a limited number of fee waivers to grant. Applicants should first investigate their eligibility for a fee waiver through the Office of Graduate Education . Those not eligible will be prompted to submit a departmental application. Fee waiver requests will only be considered *before* an applicant has submitted the application, but *after* they have completed all parts of the application, including transcript uploads and requests for letters of recommendation. Fee waiver requests for incomplete applications will not be considered. Fee waiver requests will be considered on a first-come-first-served basis, and not after December 1. Furthermore, applications lacking the paid fee or a fee waiver by 11:59pm EST on December 15 will not be reviewed or considered for admission.

Can I arrange a visit to the Physics Department or a specific research area?

We are not currently hosting or meeting with outside visitors in person, nor are we facilitating visits to our classrooms. Current graduate students and prospective applicants should direct any questions by email to [email protected] .

Applicants are invited to send specific questions to the Physics Admissions Office and some questions may be forwarded to current students for further information. Admitted students will be invited to attend an in-person open house.

Can I receive an update on the status of my application?

Candidates can check on the status of their application at apply.mit.edu/apply at any time. It is the applicant’s responsibility to ensure that all items are sent.

When will I be notified of a final decision?

Applicants will be notified via email of decisions by the end of February. If you have not heard from us by March 1, please send email to [email protected] .

We do not provide results by phone.

Can admitted students start in a term other than the next Fall semester?

Applications submitted between September 15 and December 15 by 11:59pm EST are assessed for the following Fall semester. We do not provide a separate admission review cycle for the Spring semester. Individual research supervisors may invite incoming students to start their research during the summer term a few months earlier than their studies would normally begin. All other incoming students start their studies in late August for the Fall term.

Once admitted, applicants may request a one-year deferral to attend a specific academic program or for another approved reason, with single semester deferrals for the following Spring term granted only rarely.

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.

DiscoverPhDs Physics Leaver Destinations

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.