Sheffield Hallam University
About the Project
Applications are invited for a fully funded studentship leading to a PhD degree in nuclear physics. As a nuclear physics PhD student at Sheffield Hallam University, you will be part of the UK and international nuclear physics community and will participate in experiments at world-leading accelerator facilities including the High Intensity gamma Source (HIgS) and CERN.
The Sheffield Hallam University nuclear physics research group explores a range of nuclear physics topics, from astrophysics, nuclear data, radiation detectors, and nuclear structures. It is anticipated that the successful PhD applicant will focus on exotic alpha-particle cluster structures in light nuclei or explore the effects of clustering in nuclear astrophysics – the fusion of nuclei in stars.
Nuclei exist at the heart of every atom and are perplexingly complex objects. Historically, the atomic nucleus was modelled similarly to a spherical liquid drop. However, it is now understood that many nuclei possess a variety of exotic structures, including nuclear molecules, where two smaller nuclear “clusters” bind together to form a larger nucleus. This behaviour is well established for light nuclei at low energies but is less well understood when the atomic nucleus is given more internal energy.
Typical experiments to explore these structures involve the collision of accelerated sub-atomic particles, followed by measuring the emitted radiation using a variety of detection techniques, in order to learn about the nuclear reactions that take place.
The student will be involved in planning and conducting experiments, along with computational analysis and interpretation of the data. They will also have opportunities to collaborate on experiments with other UK and international researchers and disseminate findings at conferences and seminars. These experiences will provide ample opportunities for professional development and career progression.
Eligibility
The ideal candidate will hold an undergraduate degree in physics by the project start date. Exceptional candidates from engineering or chemistry backgrounds will also be considered. Laboratory experience in radiation detection would be beneficial. Experience/training in a programming language such as C++ or Python is necessary.
For further details on entry requirements, please click here
How to apply
All applications must be submitted using the online application form. To apply, click here.
As part of your application, please upload:
- A research proposal (max. 1500 words), outlining the proposed research and the central questions; the current knowledge and context, referencing key background literature; proposed methodology or approach, if known; and the potential significance or impact of the research
- A cover letter (max. 1 page) detailing which project you are applying for; your suitability and eligibility for the project, and your reasons for applying
- Copy of your highest degree certificate
Applicants must provide 2 references, with at least one to be academic. References must be received directly from the referees.
We strongly recommend you contact the lead academic, Robin Smith, [email protected], to discuss your application
Start date for studentship: February 2025
Interviews are scheduled for: November 2024
For further information on how to apply, please visit https://www.shu.ac.uk/research/degrees
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