Add to ORKGThe LHC collimator settings are qualified regularly via beam loss maps. In this procedure, the beam is artificially excited to create abnormal loss rates. The transverse damper blow up (ADT) and tune resonance crossing methods (QT) are used to increase the betatron amplitude of particles and verify the efficiency of the collimation cleaning hierarchy in IR7. This paper presents a quantitative comparison of the methods, for the qualification of the collimator settings at different operating points in the LHC machine cycle. The analysis is done using Beam Loss Monitor (BLM) with integration times of 1.3 s and 80 ms, the latter being available as from the 2012 run onwards. We present here the use of the faster BLM data (80 ms) to study the tim...
The four primary collimators in each LHC beam define the smallest aperture. Particles with high beta...
Monitoring and minimization of beam losses is increasingly important for high-intensity and supercon...
International audienceDuring some periods in its second physics run (2015-2018), the LHC has been op...
The LHC collimator settings are qualified regularly via beam loss maps. In this procedure, the beam...
The Large Hadron Collider is designed to accelerate protons at the unprecedented energy of 7 TeV. Wi...
The collimator system provides efficient beam halo cleaning and plays an important role in...
The LHC beam loss monitoring system provides measurements with an update rate of 1 Hz and high time ...
The upgrade of the LHC energy and brightness, from the 2015 restart at close to design energy until ...
The LHC collimation system is designed to provide effective cleaning against losses coming from off-...
The fast beam losses in the order of 1 ms are expected to be a potential major luminosity limitation...
The CERN LHC collimation system is designed to perform momentum and betatron cleaning in different i...
About 3600 Ionization Chambers are located around the LHC ring to detect beam losses that could dama...
The collimation system in the beam cleaning insertion IR7 of the future Large Hadron Collider (LHC) ...
The transverse damper in LHC can be used to excite transverse oscillations in both planes for variou...
The LHC superconducting magnets in the dispersion suppressor of IR7 are the most exposed to beam los...
The four primary collimators in each LHC beam define the smallest aperture. Particles with high beta...
Monitoring and minimization of beam losses is increasingly important for high-intensity and supercon...
International audienceDuring some periods in its second physics run (2015-2018), the LHC has been op...
The LHC collimator settings are qualified regularly via beam loss maps. In this procedure, the beam...
The Large Hadron Collider is designed to accelerate protons at the unprecedented energy of 7 TeV. Wi...
The collimator system provides efficient beam halo cleaning and plays an important role in...
The LHC beam loss monitoring system provides measurements with an update rate of 1 Hz and high time ...
The upgrade of the LHC energy and brightness, from the 2015 restart at close to design energy until ...
The LHC collimation system is designed to provide effective cleaning against losses coming from off-...
The fast beam losses in the order of 1 ms are expected to be a potential major luminosity limitation...
The CERN LHC collimation system is designed to perform momentum and betatron cleaning in different i...
About 3600 Ionization Chambers are located around the LHC ring to detect beam losses that could dama...
The collimation system in the beam cleaning insertion IR7 of the future Large Hadron Collider (LHC) ...
The transverse damper in LHC can be used to excite transverse oscillations in both planes for variou...
The LHC superconducting magnets in the dispersion suppressor of IR7 are the most exposed to beam los...
The four primary collimators in each LHC beam define the smallest aperture. Particles with high beta...
Monitoring and minimization of beam losses is increasingly important for high-intensity and supercon...
International audienceDuring some periods in its second physics run (2015-2018), the LHC has been op...