Add to ORKGA small angle (< 1 mrad) crab scheme is an attractive option for the LHC luminosity upgrade to recover the geometric luminosity loss from the finite crossing angle [I]. The luminosity loss increases steeply to unacceptable levels as the IP beta function is reduced below its nominal value (see Fig. 1 in Ref. [2]). The crab compensation in the LHC can be accomplished using only two sets of deflecting RF cavities, placed in collision-free straight sections of the LHC to nullify the effective crossing angles at IPI & IP5. We also explore a 400 MHz superconducting cavity design and discuss the pertinent RF challenges. We present IR optics configurations with low-angle crab crossing, study the beam-beam performance and proton-beam emittance gr...
The HL-LHC upgrade will use deflecting (or crab) cavities to compensate for geometric luminosity los...
Some technical aspects of a crab cavity system with respect to an application in LHC are described
The high-luminosity LHC (HiLumi LHC) upgrade with planned operation from 2025 onward has a goal of a...
A small angle crab scheme is being considered for the LHC luminosity upgrade. In this paper we prese...
A small angle crab compensation ( 0.5 mrad) is foreseen to improve the LHC luminosity independently ...
An R&D program to establish a road map for the installation of crab cavities in the LHC is rapidly a...
The LHC crab cavity program is advancing rapidly towards a first prototype which is anticipated to b...
AbstractThe high luminosity upgrade planned for the LHC requires crab cavities to rotate bunches int...
The high luminosity upgrade planned for the LHC requires crab cavities to rotate bunches into alignm...
LHC High Luminosity Upgrade is in need of two crabbing systems that deflects the beam in both horizo...
In order to achieve acceptable luminosity for ILC crossing angles greater than 2 mrad, RF deflection...
Many future particle colliders require beam crabbing to recover geometric luminosity loss from the n...
Modern colliders bring into collision a large number of bunches per pulse or per turn to achieve a h...
The beam crabbing proposed for the LHC High Luminosity Upgrade requires two crabbing systems operati...
A 4-rod deflecting structure is proposed as a possible crab cavity design for the LHC high luminosit...
The HL-LHC upgrade will use deflecting (or crab) cavities to compensate for geometric luminosity los...
Some technical aspects of a crab cavity system with respect to an application in LHC are described
The high-luminosity LHC (HiLumi LHC) upgrade with planned operation from 2025 onward has a goal of a...
A small angle crab scheme is being considered for the LHC luminosity upgrade. In this paper we prese...
A small angle crab compensation ( 0.5 mrad) is foreseen to improve the LHC luminosity independently ...
An R&D program to establish a road map for the installation of crab cavities in the LHC is rapidly a...
The LHC crab cavity program is advancing rapidly towards a first prototype which is anticipated to b...
AbstractThe high luminosity upgrade planned for the LHC requires crab cavities to rotate bunches int...
The high luminosity upgrade planned for the LHC requires crab cavities to rotate bunches into alignm...
LHC High Luminosity Upgrade is in need of two crabbing systems that deflects the beam in both horizo...
In order to achieve acceptable luminosity for ILC crossing angles greater than 2 mrad, RF deflection...
Many future particle colliders require beam crabbing to recover geometric luminosity loss from the n...
Modern colliders bring into collision a large number of bunches per pulse or per turn to achieve a h...
The beam crabbing proposed for the LHC High Luminosity Upgrade requires two crabbing systems operati...
A 4-rod deflecting structure is proposed as a possible crab cavity design for the LHC high luminosit...
The HL-LHC upgrade will use deflecting (or crab) cavities to compensate for geometric luminosity los...
Some technical aspects of a crab cavity system with respect to an application in LHC are described
The high-luminosity LHC (HiLumi LHC) upgrade with planned operation from 2025 onward has a goal of a...
