Physics (PhD)

2019-20 (also available for 2020-21)

This course is eligible for Doctoral loan funding. Find out more.

Start date

23 September 2019

13 January 2020

1 April 2020

Duration

The maximum duration for a full-time PhD is 3 years (36 months) with an optional submission pending (writing up period) of 12 months.

Sometimes it may be possible to mix periods of both full-time and part-time study.

Application deadlines

For PGR start date January 2020

29 November 2019

For PGR start date April 2020

11 February 2020

For PGR start date September 2020

02 July 2020

About the research degree

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.

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.

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.

Why choose Huddersfield?


There are many reasons to choose the University of Huddersfield and here are just five of them:

  1. We were named University of the Year by Times Higher Education in 2013.
  2. Huddersfield is the only University where 100% of permanent teaching staff are Fellows of the Higher Education Authority.
  3. Our courses have been accredited by 41 professional bodies.
  4. 94.6% of our postgraduate students go on to work and/or further study within six months of graduating.
  5. We have world-leading applied research groups in Biomedical Sciences, Engineering and Physical Sciences, Social Sciences and Arts and Humanities.

What can I research?

There are several research topics available for this degree. See below examples of research areas including an outline of the topics, the supervisor, funding information and eligibility criteria:

Outline

Proton therapy is the use of protons for the treatment of cancer. There are strong advantages over other types of treatment. Proton therapy can also reduce or eliminate the need for chemotherapy with its associated devastating side-effects, and in some cases providing a cure without the loss of function caused by surgery. This project aims to design a novel, low-cost, injector system for a proton therapy Linac. The project will initially focus on designing an RF system to take the protons from 100 KeV to 5MeV. The basis of the RF system will focus around the design and optimisation of a series of normal conducting reentrant RF resonant cavities. Using numerical, FEM and FDTD-PIC, techniques to optimise the RF Cavity design to accelerate the protons. The second aspect of the project will focus on the design and possible build of a MARX generator, using off-the-shelf components to build an 80-100 MHz 1MW RF source. The research will also consider particle dynamics in the injector system from a theoretical and numerical perspective.

Funding

Please see our Research Scholarships page to find out about funding or studentship options available.

Deadline

Our standard University deadlines apply. Please see our Deadlines for Applications page to find out more.

Supervisors

How to apply

Outline

Increasing demand for faster data transfer is a challenging issue for antenna implementation, any technology that offers a substantial increase would have a sustained, major, technological and economic impact. Utilising a combined beam-forming/MIMO approach we propose to use an Artificial EM Material (AEM), with ε(permittivity)-Near-Zero (ENZ) to realise a novel compact, Ultra Wide Band, antenna. AEMs are periodic manmade subwavelength (««λ) composite structures, whose properties are determined from their geometrical structure rather than their composition, that produces an EM response not found in nature. ENZs have many phenomena that make them a relevant for this project; An arbitrary engineered dispersion relation with extreme low loss, super-coupling, transparency, supporting long wavelengths in the AEM, allowing static-like propagation and confinement leading to a near infinty phase velocity.The critical angle for total internal relection is zero, meaning a wave can only transmit through an EZN surface normally, making ENZ ideal for beam forming. Conventional MIMO systems require multiple isolated antennas. Standard Transmission Line based systems are fundamentally monoband, although correct design ARMs exhibit multiple degrees of freedom enabling multi-band operation, and could enable a reduction in the required antenna dimensions to a subwavelength size.

Funding

Please see our Research Scholarships page to find out about funding or studentship options available.

Deadline

Our standard University deadlines apply. Please see our Deadlines for Applications page to find out more.

Supervisors

How to apply

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.

Research is conducted in collaboration with prestigious international partners (e.g. ESS, CERN, PSI) and other UK universities, and with industry (e.g. Alceli, Applied Materials, Reliance Precision Ltd).

To find out more about the research we conduct, take a look at our Research, Innovation and Skills webpages, where you will find information on each research area. To find out about our staff visit ‘Our experts’ which features profiles of all our academic staff.

Research Enviroment

We provide a supportive and vibrant research environment for postgraduate researchers (PGRs). Researchers at all levels are encouraged to contribute and collaborate. The Graduate School ensures that postgraduate research is of the highest quality and equips you with the resources that you need to become a successful researcher.

We have an exciting and comprehensive Researcher Skills Development Programme available to all postgraduate researchers. This enables you to broaden your knowledge and access tools and skills which can significantly improve employability. The programme is also mapped onto Vitae’s Researcher Development Framework (RDF), allowing you to benefit from Vitae support as well as our own Programme.

We offer skills training through a programme designed to take advantage of technology platforms as well as face-to-face workshops and courses. The University has subscribed to Epigeum, a programme of on-line research training support designed and managed by staff at Imperial College London which will be accessed via Brightspace, the University’s Virtual Learning Environment. We also subscribe to the University of East Anglia webinar series and The Good Doctorate video training series. We are part of the North West and Yorkshire PGR Training Group that allows PGRs to attend relevant training opportunities at other nearby universities.

Student support

At the University of Huddersfield, you'll find support networks and services to help you get ahead in your studies and social life. Whether you study at undergraduate or postgraduate level, you'll soon discover that you're never far away from our dedicated staff and resources to help you to navigate through your personal student journey. Find out more about all our support services

Important information

We will always try to deliver your course as described on this web page. However, sometimes we may have to make changes to aspects of a course or how it is delivered. We only make these changes if they are for reasons outside of our control, or where they are for our students' benefit. We will let you know about any such changes as soon as possible. Our regulations set out our procedure which we will follow when we need to make any such changes.

When you enrol as a student of the University, your study and time with us will be governed by a framework of regulations, policies and procedures, which form the basis of your agreement with us. These include regulations regarding the assessment of your course, academic integrity, your conduct (including attendance) and disciplinary procedure, fees and finance and compliance with visa requirements (where relevant). It is important that you familiarise yourself with these as you will be asked to agree to abide by them when you join us as a student. You will find a guide to the key terms here, where you will also find links to the full text of each of the regulations, policies and procedures referred to.

The Office for Students (OfS) is the principal regulator for the University.