Add to ORKGThis paper presents the layout of collimators for HL-LHC in the experimental insertions. On the incoming beam, we propose to install additional tertiary collimators to protect potential new aperture bottlenecks in cells 4 and 5, which in addition reduce the experimental background. For the outgoing beam, the layout of the present LHC with three physics debris absorbers gives sufficient protection for highluminosity proton operation. However, collisional processes for heavy ions cause localized beam losses with the potential to quench magnets. To alleviate these losses, an installation of dispersion suppressor collimators is proposed
The handling of the high-intensity LHC beams in a super-conducting environment requires a high-robus...
The LHC collimation system, ensuring both functions of beam cleaning and machine protection, is pote...
The collimation system is a vital part of the LHC project, protecting the accelerator against unavoi...
The HL-LHC will store 675 MJ of energy per beam, about 300 MJ more than the nominal LHC. Due to the ...
The HL-LHC will store 675 MJ of energy per beam, about 300 MJ more than the nominal LHC. Due to the ...
The limiting locations of the present LHC machine in terms of losses on cold magnets are the dispers...
The limiting location of the present LHC machine in terms of losses on cold magnets are the dispersi...
In order to handle the extremely high stored energy in future proton-proton colliders, an extremely ...
In order to handle the extremely high stored energy in future proton-proton colliders, an extremely ...
In order to handle the extremely high stored energy in future proton-proton colliders, an extremely ...
In order to handle the extremely high stored energy in future proton-proton colliders, an extremely ...
Different upgrades of the LHC will be carried out in the framework of the High Luminosity project (H...
The upgrade of the LHC collimation system in view of the High-Luminosity upgrade of the Large Hadron...
The upgrade of the LHC collimation system in view of the High-Luminosity upgrade of the Large Hadron...
The new layouts for the HL-LHC pose new challenges in terms of proton loads on the collimators aroun...
The handling of the high-intensity LHC beams in a super-conducting environment requires a high-robus...
The LHC collimation system, ensuring both functions of beam cleaning and machine protection, is pote...
The collimation system is a vital part of the LHC project, protecting the accelerator against unavoi...
The HL-LHC will store 675 MJ of energy per beam, about 300 MJ more than the nominal LHC. Due to the ...
The HL-LHC will store 675 MJ of energy per beam, about 300 MJ more than the nominal LHC. Due to the ...
The limiting locations of the present LHC machine in terms of losses on cold magnets are the dispers...
The limiting location of the present LHC machine in terms of losses on cold magnets are the dispersi...
In order to handle the extremely high stored energy in future proton-proton colliders, an extremely ...
In order to handle the extremely high stored energy in future proton-proton colliders, an extremely ...
In order to handle the extremely high stored energy in future proton-proton colliders, an extremely ...
In order to handle the extremely high stored energy in future proton-proton colliders, an extremely ...
Different upgrades of the LHC will be carried out in the framework of the High Luminosity project (H...
The upgrade of the LHC collimation system in view of the High-Luminosity upgrade of the Large Hadron...
The upgrade of the LHC collimation system in view of the High-Luminosity upgrade of the Large Hadron...
The new layouts for the HL-LHC pose new challenges in terms of proton loads on the collimators aroun...
The handling of the high-intensity LHC beams in a super-conducting environment requires a high-robus...
The LHC collimation system, ensuring both functions of beam cleaning and machine protection, is pote...
The collimation system is a vital part of the LHC project, protecting the accelerator against unavoi...