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We have 37 Nuclear Physics PhD Research Projects PhD Projects, Programmes & Scholarships
Nuclear Physics PhD Research Projects PhD Projects, Programmes & Scholarships
We have 37 Nuclear Physics PhD Research Projects PhD Projects, Programmes & Scholarships
PhD students in Nuclear Physics are tasked with conducting research into the properties and behaviour of matter on an atomic and sub-atomic level. You could be researching the properties of particles that make up an atomic nucleus or attempting to understand the fundamental forces that govern our universe.
What's it like to study a PhD in Nuclear Physics?
Working under the guidance of an expert supervisor, you'll work towards completing a thesis that will make an original contribution to the field. Your research will likely involve collaboration with local research centres and you may also have the opportunity to attend conferences and publish your work.
Possible research areas include:
- Nuclear astrophysics
- Nuclear radiation
- Nuclear fuel cycles
- Nuclear waste disposal
- Radiation protection
- Radiation therapeutics
Undergraduate research opportunities are also available in Nuclear Physics, though these are less likely to be advertised with dedicated funding attached.
Most PhD programmes in Nuclear Physics will require you to submit an 80,000-word thesis at the end of your first year, though some programmes will also ask you to complete a 30,000-word research portfolio during your first year. You'll also complete oral defences of your thesis at certain points during your study.
As well as core science classes, you'll also have the opportunity to take language classes to improve your communication skills.
Entry requirements for a PhD in Nuclear Physics
The entry requirements for a PhD in Nuclear Physics will depend on the programme and university you plan to apply to. The minimum requirement is usually a 2:1 undergraduate degree in a relevant subject, though a Masters degree with sometimes be required.
PhD in Nuclear Physics funding options
There are usually funding options available for PhD students in Nuclear Physics in the UK. These are usually full stipends provided by the Engineering and Physical Sciences Research Council (EPRSC), which cover the cost of tuition fees, a living cost stipend, and in some cases a research grant.
PhD in Nuclear Physics careers
The skills you'll gain during your PhD will equip you for a career in academia, or in areas such as nuclear forensics, nuclear security, or radiation protection. Many graduates also find careers in nuclear policy or nuclear technology.
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In-situ disposal of cementitious wastes at UK nuclear sites
This fully funded UK Nuclear Decommissioning Authority (NDA) PhD bursary provides an exciting opportunity to pursue postgraduate research relating to waste management during the decommissioning of UK nuclear sites. Read more
Fully-funded PhD Studentship in Likelihood and impact of severe space weather events on the resilience of nuclear power and safeguards monitoring
The risks posed by space weather are faced globally and can only be monitored effectively with a globally distributed network of monitors and validated models. Read more
Fully-funded PhD Studentship in the detection and quantification of water in spent nuclear fuel
This project addresses the requirement to develop a means to detect and quantify water in spent nuclear fuel. Whilst water is detectable by a variety of hypothetical approaches, its association with spent nuclear fuel introduces a number of significant constraints. Read more
Reducing scan time and radioactive exposure in nuclear imaging using swarm intelligence
This scholarship will support the PhD candidate to carry out frontier research in swarm led Tomographic Reconstruction (TR), which is the process of inferring the internal structure of an object from the projected images cast by penetrating radiation. Read more
Cosmic-Ray Muons in Different Applications
Cosmic-ray muons are known to be useful in applications beyond particle astrophysics. They have helped with mapping structure of volcanoes and with finding voids in various geological structures. Read more
Modelling and optimization of tritium inventory in the cryogenic distillation isotope separation system of a future fusion power station
The University of Bath Institute for Sustainability and the UK Atomic Energy Authority are inviting applications for the following funded PhD project commencing in October 2023. Read more
Investigating the physio-chemical behaviour of fission products within nuclear grade graphite
It is now widely accepted that nuclear power has an integral role to play in the UK, if the ambitious targets of reaching net-zero are to be achieved. Read more
Last chance to apply
Reconstruction of Transverse Beam Distribution using Machine Learning
The beam transverse distribution in CERN's high-radiation environment is measured by imaging the light generated by the particle beam hitting a scintillating screen, using cameras produced in-house based on radiation hard tubes. Read more
(EPSRC iCASE) Nuclear data measurements for fission applications
A fully-funded PhD project is available in the field of nuclear data measurement. This project is a collaboration between the University of Manchester and the National Physical Laboratory (NPL). Read more
(EPSRC iCASE) Nuclear data measurements at n_TOF for fusion and fission applications
A fully funded PhD project is available in the field of nuclear data measurement. This project is a collaboration between the University of Manchester and the National Physical Laboratory (NPL). Read more
Characterization of Vacancy-Related Point Defects in Nuclear Materials
The importance of both Fusion and Fission Nuclear Energy Technologies is growing. The materials used must be resilient to high levels of typically neutron and gamma-ray radiation. Read more
PhD studentship in Intermetallic strengthened high temperature steels for demanding fusion plant applications, with UKAEA
A funded 3.5-year UK PhD studentship is available in the group of Dr Sandy Knowles within the School of Metallurgy and Materials at the University of Birmingham, with a tax-free stipend of £17,668 per year. Read more
Last chance to apply
Isospin and collectivity in nuclei
The proton and neutron are two types of the general class of particles called the nucleon. They differ in that the proton has an electric charge while the neutron does not. Read more
Last chance to apply
Next generation radiation detectors for in-vivo quality assurance in Medical Physics
The proposed research project aims to investigate the performance of organic and perovskite materials for dosimetry in photon and hadron therapy applications. Read more
Gamma-Ray Spectroscopy of Pear-Shaped Atomic Nuclei
The aim of this project is to better understand the structure of the atomic nucleus, specifically by studying novel "pear shaped" nuclear deformations in nuclei in the actinide region (the radon, radium, thorium, and uranium nuclei). Read more