Sort by
Refine Your Search
-
Employer
-
Field
-
This funded project is open to home and overseas students. The start date is September 2024. Application deadline: 30/06/2024 Research theme: Laser physics with particle accelerator applications To
-
A major challenge for defence & security laser systems is managing the heat generated and differential thermal expansion of the different components in the system. A compounding challenge is the
-
), and Diamond Light Source, the UK national synchrotron source, in the Spectroscopy Group. The PhD will combine inorganic photochemistry, ultrafast laser spectroscopy, and time-resolved structural methods
-
materials synthesis, scale up and characterisation. Background on the applications: New high light yield scintillator-based imaging detectors using both X-ray and neutrons, are important for enhanced
-
project: Driven by CO2 emission targets and the need for light-weight structures, the global use for carbon fibre reinforced plastics (CFRPs) is expected to grow very rapidly in the next years, leading
-
out-of-core radiation has prompted the exploration of alternative materials. Fe-based alloys emerge as promising candidates, exhibiting potential for enhanced performance and reduced radiation concerns
-
of Materials, NGI and Henry Royce Institute, as well as an ‘as needed’ access to the capabilities of Syensqo. About the PhD project: Driven by CO2 emission targets and the need for light-weight structures
-
jointly supervised project between Dr Martin Leonard at UKHSA Radiation, Chemical and Environmental Hazards (RCE) and Dr Ian Mudway of Imperial College London (ICL). The student will be registered at ICL
-
Applications are sought for a PhD studentship joint between the University of Birmingham and Diamond Light Source, jointly funded by the Ada Lovelace Centre and the University of Birmingham
-
-vibration problems came to light, indicating that modern, light-weight, low-frequency and lightly-damped structures have to be designed with new standards, grounded on a theoretical framework for human