Roland Schnuerer (PhD), 'Non-invasive, silicon-based beam monitor for medical accelerators'

Eleftherios Skordis (PhD), 'Radiation impact of collimation beam losses in the LHC and HL-LHC'



Joseph Wolfenden (PhD),  'Novel radiometric imaging diagnostics for charged particle beams'

James Hunt (PhD), 'Beam Quality Characterisation and the Optimisation of Next Generation Antimatter



Maria Kastriotou (PhD), 'Optimisation of storage rings and RF accelerators via advanced optical fibre-bas'

Yelong Wei (PhD), 'Investigations Into Dual-Grating Dielectric Laser-Driven Accelerators '

Miguel Fernandes (PhD), ''Squid based cryogenic current comparator for measuring low-intensity antiproton beams'



Thomasz Cybulski (PhD), 'A Non-Invasive Beam Current Monitor for a Medical Accelerator'

Alexandra Alexandrova (PhD), 'Investigation into laser self-mixing or accelerator applications'

Vasileios Tzoganis (PhD), 'Investigations into Ion Beam Emittance and Profile Monitoring'



Lee Devlin (PhD), 'Studies towards an enhanced understanding of Electron Beams and their Diagnostics'



Alejandro Sosa (PhD), 'Development of Beam Instrumentation for Exotic Particle Beams'

Giacomo Manessi (PhD), 'Development of advanced radiation monitors for pulsed neutron fields'



Adam Jeff (PhD),'A Longitudinal Density Monitor for the LHC'

Janusz Harasimowicz (PhD), 'Development of Instrumentation for Low Energy Beams'



Tobias Junginger (PhD), 'Investigations of the surface resistance of superconducting materials'

Massimiliano Putignano (PhD), 'Supersonic Gas-Jet Based Beam Profile Monitor



Iliya Takov (MSc), 'Design of a non-destructive beam position monitor for ultra-low energy antiproton beams'

Dominic Borrows (BSc), 'Supersonic Gas Jet Profiling'

Marcel Schuh (PhD), 'Study of Higher Order Modes in Superconducting Accelerating Structures for Linac Applications'



Rebecca Boll (Diploma), 'A Monolithic Active Pixel Sensor as Direct Monitor for Therapeutic Antiproton and Ion Beams'

Stefan Sellner (Diploma), 'Real-Time Imaging of the Annihilation Vertex Distributions for Antiprotons Stopping in Biological Targets'