Physics PhD
Why choose this course
The Department of Physics is home to PhD students from around the world, supported by 34 full-time, research-active academic staff. Our PhD research programmes provide opportunities for experimental, theoretical and computational research in both fundamental and applied physics, in subjects such as nuclear and radiation physics, astrophysics, photonics, soft matter, quantum technologies and medical physics. We’re a friendly and engaging academic community, and can offer a wide variety of support, training and social activities.
You’ll have the opportunity to collaborate with scientists around the world, and take advantage of our strategic partnerships with organisations such as the National Physical Laboratory and the Royal Surrey County Hospital. We’re part of the South-East Physics network of nine leading university physics departments (SEPnet), and you’ll become part of its graduate network (GRADnet), the largest postgraduate research school in England.
We have an excellent graduate employability record, and the collaborative, interdisciplinary and industry-relevant nature of our research means you’ll make contacts, gain skills and get practical experience that will give you an edge with employers.
Our research ranges from fundamental nuclear theory to applied research in semiconductor devices. Our nuclear physics group is the largest combined experimental and theoretical group in its field in the UK. Our research in astrophysics is dynamic and rapidly growing, and our latest research in quantum technology has resulted in publications in top international journals. Our research often has strong practical applications, such as the strained layer laser that is today ubiquitous in information technology.
The most recent (2014) Research Excellence Framework (REF) rated 84 per cent of our research output as world-leading or internationally excellent.
What you will study
It normally takes between three and four years of full-time study to complete our PhD in Physics.
You’ll be assigned two supervisors, both based at the University of Surrey. Your principal supervisor will be an expert in your area of research, and will guide you through your PhD. Together, your supervisors will help you define the objectives and scope of your research, and help you learn the experimental, theoretical and computing skills that you need to complete your research. Normally, you’ll meet with your supervisors every week or every other week.
As a doctoral student in the Department of Physics, you’ll be assigned to a research group with a team of academics, postdoctoral researchers, guest scientists and fellows. Each group has its own seminar programme, giving you the opportunity to learn from colleagues and from guest scientists.
You’ll have regular opportunities to meet other PhD students, academics and other staff at our informal postgraduate research forum meetings, and to get involved in organising social or other events.
You’ll complete a confirmation report after 12 months that’s assessed by independent examiners. Your PhD will be assessed overall by a written thesis after studying for at least three years.
In addition to the award of a PhD, as a doctoral student you’ll be able to join the Institute of Physics as an Associate Member, and entitled to apply for full membership after three years of postgraduate study.
Research support
The professional development of postgraduate researchers is supported by the Doctoral College, which provides training in essential skills through its Researcher Development Programme of workshops, mentoring and coaching. A dedicated postgraduate Careers and Employability team will help you prepare for a successful career after the completion of your PhD.
Research themes
Astrophysics
- Multi-scale numerical simulations
- Stellar clusters
- Galaxy formation
- Supermassive black holes
- The hunt for dark matter
- Nuclear and Radiation Physics.
Experimental nuclear physics
- Physics of exotic nuclei studied with gamma ray spectroscopy, charged particle spectroscopy and radioactive beams.
Theoretical nuclear physics
- Ab initio nuclear structure
- Reactions for stellar nucleosynthesis
- Few body methods for nuclear structure and reactions
- Nuclear matter and neutron stars
- Superheavy nuclei and the creation of new elements
- Resonances and vibrational modes of nuclei
Radiation detectors
- Fundamental detector physics
- New materials and technologies for detectors
- Novel algorithms and data handling for radiation detectors.
Medical physics
- Trace elements in the body
- Realistic phantoms for medical imaging
- Applications of X-ray tomography
- Radiation transport
- Radiobiology (biological effectiveness and modelling)
- Dosimetry and micro-dosimetry
- Advanced radiotherapy.
Environmental radioactivity
- Gamma ray spectroscopy
- Distribution of radioactivity due to natural and man-made processes.
- Optimised sensor placement for radiological research
- Detection of radioactive concealed structures
Photonics and Quantum Sciences
- Unconventional semiconductors and nanostructures for new types of lasers and detectors
- Quantum technology based on silicon
- Femtosecond dynamics of electron spins
- Exciton photo-physics in nanostructures
- Quasi-random photonic crystals
- Control of qubits in circuit quantum electrodynamics.
Soft Matter
- Integration of nanoscale materials into functional devices
- Non-equilibrium processes in polymer colloids
- Soft polymers and nanocomposites in adhesives
- Computational soft matter, water dynamics in porous media and biological physics
- Fluid dynamics and porous media: magnetic resonance imaging and computational simulation
- Living microbes in hybrid functional materials
- Responsive emulsions and microcapsules
- Adhesives from natural, renewable sources
Quantum biology
- How quantum coherence is maintained in biological energy harvesting
- The impact of biological noise in quantum coherence.
Intakes
- Oct
Application Processing Time in Days: 20
Minimum English Language Requirements
English Level Description | IELTS (1.0 -9.0) | TOEFL IBT (0-120) | TOEFL CBT (0-300) | PTE (10-90) | |
---|---|---|---|---|---|
Expert | 9 | 120 | 297-300 | 86-90 | |
Very Good | 8.5 | 115-119 | 280-293 | 83-86 | |
Very Good | 8 | 110-114 | 270-280 | 79-83 | |
Good | 7.5 | 102-109 | 253-267 | 73-79 | |
Good | 7 | 94-101 | 240-253 | 65-73 | |
Competent | 6.5 | 79-93 | 213-233 | 58-65 | |
Competent | 6 | 60-78 | 170-210 | 50-58 | |
Modest | 5.5 | 46-59 | 133-210 | 43-50 | |
Modest | 5 | 35-45 | 107-133 | 36-43 | |
Limited | 4 | 32-34 | 97-103 | 30-36 | |
Extremely Limited | < 4 | < 31 | < 93 | < 30 |
Admission Requirement / Eligibility Criteria
Applicants are expected to hold a first or upper-second class degree in a relevant discipline (or equivalent overseas qualification), or a lower second plus a good Masters degree (distinction normally required).
- Course Type: Full Time
- Course Level: Doctoral Degree/PhD
- Duration: 04 Year
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Total Tuition Fee:
88000 GBP
Annual Cost of Living: 9207 GBP
Application Fee: N/A