Course summary
A PhD is the highest academic award for which a student can be registered. This full-time, three year programme allows you to explore and pursue a research project built around a substantial piece of work, which has to show evidence of original contribution to knowledge. A PhD is a programme of research, culminating in the production of a large-scale piece of written work in the form of a research thesis that should not normally exceed 80,000 words (excluding references and appendices). Completing a PhD can give you a great sense of personal achievement and help you develop a high level of transferable skills which will be useful in your subsequent career, as well as contributing to the development of knowledge in your chosen field. You are expected to work to an approved programme of study including appropriate programmes of postgraduate study (which may be drawn from parts of existing postgraduate courses, final year degree programmes, conferences, seminars, masterclasses, guided reading or a combination of study methods). You will be appointed a main supervisor who will normally be part of a supervisory team, comprising up to three members to advise and support you on your project.
Modules
Our research is focused around two themes novel-materials and particle accelerators. We research and develop new approaches and methods to accelerator applications and materials development that will have a real impact on global grand challenges in areas such as the environment, health, security and energy. There is a wide range of topics which can be researched, including the following areas:
- Artificial Electromagnetic Materials: designing and fabricating artificial materials, such as metamaterials and spatially dispersive media. To manipulate the interaction between charged particle beams and EM waves.
- Medium Energy Ion Scattering: probing the atomic composition of the first few layers with our accelerator system, which is part of the UK National Ion Beam Centre
- Particle Accelerators: we work in conjunction with international labs and industry to develop the next generation of accelerators for a range of applications from ion therapy and imaging, energy production and transmutation, curing leather, purifying water, and many others.
How to apply
International applicants
This course has a subject classification which requires students whose nationality is outside the European Economic Area (EEA) or Switzerland to have an ATAS certificate, irrespective of country of residence at the point of application.
Further information can be found on the UK Government's website: www.gov.uk/academic-technology-approval-scheme
Entry requirements
The normal level of attainment required for entry is: * a Master's degree from a UK University or equivalent, in a discipline appropriate to the proposed programme to be followed, or * an upper second class honours degree (2:1) from a UK university in a discipline appropriate to that of the proposed programme to be followed, or * appropriate research or professional experience at postgraduate level, which has resulted in published work, written reports or other appropriate evidence of accomplishment.
English language requirements
If your first language is not English, you will need to meet the minimum requirements of an English Language qualification. The minimum for IELTS is 6.0 overall with no element lower than 5.5, or equivalent will be considered acceptable.
Read more about the University’s entry requirements for students outside of the UK on our 'Where are you from?' information pages.
Fees and funding
Tuition fees
England | £2420 | Year 1 |
Northern Ireland | £2420 | Year 1 |
Scotland | £2420 | Year 1 |
Wales | £2420 | Year 1 |
Channel Islands | £2420 | Year 1 |
Republic of Ireland | £2420 | Year 1 |
EU | £8500 | Year 1 |
International | £8500 | Year 1 |
Additional fee information
Sponsorship information
For further information please visit https://www.hud.ac.uk/postgraduate/funding-studies/
Provider information
University of Huddersfield
Queensgate
Huddersfield
HD1 3DH