Nuclear applications
Woking closely with industry, we apply and develop computational and experimental methods to detect radioactive and nuclear material across security, energy and medical applications. Our research draws on the latest artificial intelligence approaches including neural networks and genetic algorithms.
Past projects
- Machine learning techniques for nuclear decommissioning in collaboration with the Â鶹ÊÓƵ Chemistry Department, and part of the , 2019-2023
- Optimised scintillator section through fuzzy logic in collaboration with the , 2021
- Quantum dot enhanced detection technology, 2017-2021
- Innovative alpha detection for environmental applications, 2018-2019
- Thermoluminescence of fibres and beads for radiation dosimetry, 2018-2022
Team members
Dr Caroline Shenton-Taylor
Nuclear Applications and AI Lead, Senior Lecturer
Biography
Caroline is a Applied Nuclear Physics Senior Lecturer. Presently her interests include AI and smart data analytics, addressing challenges within nuclear security, nuclear decommissioning, nuclear forensics, nuclear medicine and health monitoring. Alongside her research and teaching, Caroline is passionate about scientific exchange and runs the She is the , and has contributed to Radio 4, local radio and numerous festival and outreach events. Explore more of Caroline's outreach work on her
Caroline obtained her PhD in the field of Magnetic Compton Scattering in 2007 from the University of Warwick. Working with synchrotron X-rays, she explored a range of magnetic materials with applications including enhanced computer memory and innovative refrigeration. From 2007 to 2017 Caroline transitioned into industry, leading a diverse portfolio of scientific research projects on behalf of the UK Ministry of Defence and UK Home Office. Throughout this time Caroline was the Team and Technical Lead for an interdisciplinary research team, focused on the development of novel methods to detect the presence of radiological and nuclear materials. in 2017 she joined the Â鶹ÊÓƵ forming the Nuclear Applications and AI team.
Current researchers
Affiliated to group
Selected publications and proceedings
- A. Worthy, A. Mackenzie, N. Smith, and C. Shenton-Taylor SPIE IWBI 2024
- L Lee-Brewin, D. Read and C. Shenton-Taylor
- C. Termsuk, S. Sweeney and C. Shenton-Taylor, Radiation Physics and Chemistry
- K Ley, S A Hashim, A Lohstroh, C Shenton-Taylor, D A Bradley, Radiation Physics and Chemistry
- X-ray Luminescence of Nanocomposite Plastic Scintillator using CuInS/ZnS Quantum Dots (2021) C.L. Grove, I.H.B. Braddock, M.P. Taggart, C. Crean, S.J. Sweeney, P.J. Sellin, and C. Shenton-Taylor SORMA West
- K Ley, S A Hashim, A Lohstroh, C Shenton-Taylor, D A Bradley, Radiation Physics and Chemistry
- P K Soin, S Pitts, C Shenton-Taylor, J Barnes, IEEE Sensors Journal
- S Parsons, A Langley, C Shenton-Taylor, A Lohstroh, IEEE Transactions on Nuclear Science
PhD thesis
- - L Lee-Brewin
- - C Termsuk
- - C Grove
- - K Ley
- - S. Parsons
Conferences and events
Interested in our research? These are some recent places we have presented at...
Areas of research interest include
- Convolutional neutral networks applied to Nuclear Security
- Machine leaning within Nuclear Health
- Physics informed machine learning for the Nuclear Industry
- AI deep learning methods applied to Nuclear Applications
- Genetic algorithms, sparse data techniques, fuzzy logic
Browse the University's frequently updated list of self-funded and funded studentships open for applications.
Areas of research interest include
- Convolutional neutral networks applied to Nuclear Security
- Machine leaning within Nuclear Health
- Physics informed machine learning for the Nuclear Industry
- AI deep learning methods applied to Nuclear Applications
- Genetic algorithms, sparse data techniques, fuzzy logic
Browse the University's frequently updated list of self-funded and funded studentships open for applications.
