Monte Carlo and high performance computing (WP1)

Powerful tools for everything from modelling the birth and evolution of the universe to performing the numerical integrals needed to calculate cross sections for particle interactions.

The following projects are part of this work package: 

Open positions for 2025

• Carbon Nanotube-based Ultra-compact Particle Accelerators
• Sustainable Beam Diagnostics for Particle Accelerators
• Beam gas curtain monitor for the High Luminosity LHC
• Realization of a Cherenkov-Diffraction Radiation based Outcoupling Scheme for Beam Diagnostic Applications.

2024

• Quantum computing innovation to simulate quantum systems
• Preparation and Characterisation of ‘Green’ Photocathodes for the Generation of High-Brightness Electron Beams.

2023 

• Data intense large order Feynman graph evaluation 
• Quantum Computing for Neutrino Scattering 
• Efficient classification of heterotic-string vacua 
• Modelling low-mass star-forming galaxies.

2022

• Optimization of low-dose, low cost mobile 3D x-ray imaging 
• Developing of instrumentation technologies for a future zero power reactor experiment on molten salt reactors.