Add to ORKGIn the LHC, high-amplitude particles are cleaned by ei- ther betatron collimators or momentum collimators. Previously, betatron losses have been studied more in detail since considered as a possible performance limitation of the machine. Measurements during the first years of operation show high losses also in the off-momentum cleaning insertion. This causes a significant radiation dose to warm magnets downstream of the collimators. Our work in this paper aims at simulating with SixTrack the off-momentum particles, driven into the momentum collimators by radiation damping outside the RF system acceptance. The re- sults are an important ingredient in assessing the effective- ness of new passive absorbers to protect the warm magnets
The betatron collimators in IR7 constitute the backbone of the collimation system of the LHC. A frac...
Abstract A LHC non-linear betatron cleaning collimation system would allow larger gap for the mechan...
A LHC non-linear betatron cleaning collimation system would allow larger gap for the mechanical jaws...
The Large Hadron Collider is designed to collide proton beams with unprecedented energy in order to ...
This Master thesis work has been carried out at CERN in the framework of the LHC (Large Hadron Colli...
This note describes the details and the first results of the cascade simulations in the momentum cle...
The limiting location of the present LHC machine in terms of losses on cold magnets are the dispersi...
The limiting locations of the present LHC machine in terms of losses on cold magnets are the dispers...
The cleaning inefficiency of the LHC collimation system for the operational scenarios in 2010-12 has...
The LHC collimation system is designed to provide effective cleaning against losses coming from off-...
The power deposited in dispersion suppressor (DS) magnets downstream of the LHC betatron cleaning in...
The CERN LHC collimation system is designed to perform momentum and betatron cleaning in different i...
The present Master thesis work has been carried out at CERN in the framework of the LHC (Large Hadro...
At the start of the energy ramp at the LHC, any uncaptured beam is quickly lost on the momentum coll...
The FCC proton beam is designed to carry a total energy of about 8500 MJ, a factor of 20 above the L...
The betatron collimators in IR7 constitute the backbone of the collimation system of the LHC. A frac...
Abstract A LHC non-linear betatron cleaning collimation system would allow larger gap for the mechan...
A LHC non-linear betatron cleaning collimation system would allow larger gap for the mechanical jaws...
The Large Hadron Collider is designed to collide proton beams with unprecedented energy in order to ...
This Master thesis work has been carried out at CERN in the framework of the LHC (Large Hadron Colli...
This note describes the details and the first results of the cascade simulations in the momentum cle...
The limiting location of the present LHC machine in terms of losses on cold magnets are the dispersi...
The limiting locations of the present LHC machine in terms of losses on cold magnets are the dispers...
The cleaning inefficiency of the LHC collimation system for the operational scenarios in 2010-12 has...
The LHC collimation system is designed to provide effective cleaning against losses coming from off-...
The power deposited in dispersion suppressor (DS) magnets downstream of the LHC betatron cleaning in...
The CERN LHC collimation system is designed to perform momentum and betatron cleaning in different i...
The present Master thesis work has been carried out at CERN in the framework of the LHC (Large Hadro...
At the start of the energy ramp at the LHC, any uncaptured beam is quickly lost on the momentum coll...
The FCC proton beam is designed to carry a total energy of about 8500 MJ, a factor of 20 above the L...
The betatron collimators in IR7 constitute the backbone of the collimation system of the LHC. A frac...
Abstract A LHC non-linear betatron cleaning collimation system would allow larger gap for the mechan...
A LHC non-linear betatron cleaning collimation system would allow larger gap for the mechanical jaws...