European Organization for Nuclear Research
Author in the following contributions
- Assessing the origin of the LHC beam halo
- Preliminary results of crystal channelling optimisation in the LHC using reinforcement learning
- Exceeding high-luminosity LHC performance targets during the 2024 Pb-Pb ion run
- Simulations of losses from fast instabilities in the FCC-ee
- Laser Compton backscattering for precision beam intensity control in the FCC-ee electron-positron collider
- High Luminosity LHC collimation system performance for different optics configurations
- Beam losses due to beam-residual gas interactions in the FCC-ee
- Comparison of Xsuite simulations with measured backgrounds at SuperKEKB
- Xcoll-BDSIM coupling for beam collimation
- Overview of power deposition profiles in the LHC off-momentum cleaning section in Run 3
- Operational deployment of automatic angular alignment for LHC collimators
- Dose calculations for warm quadrupoles in the LHC off-momentum cleaning insertion
- Characterisation of transverse proton beam losses at the CERN Super Proton Synchrotron
- Simulations of beam halo distributions for a feasibility study of in-vacuum gravitational experiments at the LHC
- An updated HL-LHC halo population model based on recent experimental measurements
- Advances in machine learning inference of dynamic aperture evaluation for the LHC
- Impact of non-linearities on collimation losses at the CERN Large Hadron Collider
- LHC BLM-based beam loss pattern recognition algorithm for off-momentum losses
- Operational deployment of automatic angular alignment for LHC collimators
- Simulations of losses from fast instabilities in the FCC-ee
- Comparison of Xsuite simulations with measured backgrounds at SuperKEKB
- Towards a High Luminosity LHC with even higher performance
