Add to ORKGThe LHCb (point 8) interaction region is sensitive to beam orbit errors arising from magnet setting errors on injection. In this report, beam accident scenarios under injection for LHCb are described, focusing on ultra- fast error injection scenarios for the interaction straight correctors and dipoles. Beam 1 and beam 2 accident scenarios are considered, where the errors can lead to beam orbits striking the LHCb vacuum chamber or elements of the machine. The required thresholds for magnet current interlocks are calculated to avoid machine and detector risk
The Large Hadron Collider (LHC) at CERN is one of the most complex machines ever built. It is used t...
Each of the two Large Hadron Collider (LHC) beams contain 362 MJ of energy. This will be further inc...
The LHC injection regions accommodate a system of beam-intercepting devices which protect supercondu...
The ALICE (point 2) interaction region is sensitive to beam orbit errors arising from magnet setting...
In this note some of the mechanisms that could lead to beam losses at the LHC are described. Events ...
The LHC stored beam contains 362 MJ of energy at the top beam energy of 7 TeV/c, presenting a signif...
Nominal LHC operation foresees to inject four batches of 72 bunches at the time. Injection of up to ...
Losses at injection into the superconducting LHC can adversely affect the machine performance in sev...
Abstract Several instances of injection kicker magnet (MKI) failures have occurred in the first year...
The LHC stored beam contains 362 MJ of energy at the top beam energy of 7 TeV, offering considerable...
Several instances of injection kicker magnet (MKI) failures have occurred in the first years of LHC ...
The failure events which can occur with the fastest timescales in the LHC are mainly associated with...
The failure events which can occur with the fastest timescales in the LHC are mainly associated with...
For nominal beam parameters at 7 TeV/c, each of the two LHC proton beams has a stored energy of 350 ...
Protection of LHC equipment relies on a complex system of collimators to capture injected and circul...
The Large Hadron Collider (LHC) at CERN is one of the most complex machines ever built. It is used t...
Each of the two Large Hadron Collider (LHC) beams contain 362 MJ of energy. This will be further inc...
The LHC injection regions accommodate a system of beam-intercepting devices which protect supercondu...
The ALICE (point 2) interaction region is sensitive to beam orbit errors arising from magnet setting...
In this note some of the mechanisms that could lead to beam losses at the LHC are described. Events ...
The LHC stored beam contains 362 MJ of energy at the top beam energy of 7 TeV/c, presenting a signif...
Nominal LHC operation foresees to inject four batches of 72 bunches at the time. Injection of up to ...
Losses at injection into the superconducting LHC can adversely affect the machine performance in sev...
Abstract Several instances of injection kicker magnet (MKI) failures have occurred in the first year...
The LHC stored beam contains 362 MJ of energy at the top beam energy of 7 TeV, offering considerable...
Several instances of injection kicker magnet (MKI) failures have occurred in the first years of LHC ...
The failure events which can occur with the fastest timescales in the LHC are mainly associated with...
The failure events which can occur with the fastest timescales in the LHC are mainly associated with...
For nominal beam parameters at 7 TeV/c, each of the two LHC proton beams has a stored energy of 350 ...
Protection of LHC equipment relies on a complex system of collimators to capture injected and circul...
The Large Hadron Collider (LHC) at CERN is one of the most complex machines ever built. It is used t...
Each of the two Large Hadron Collider (LHC) beams contain 362 MJ of energy. This will be further inc...
The LHC injection regions accommodate a system of beam-intercepting devices which protect supercondu...