Add to ORKGFor several years, a large variety of beams have been prepared in the LHC injectors, such as single-bunch and multi-bunch beams, with 25 ns, 50 ns and 75 ns bunch spacings, nominal and intermediate intensities per bunch. As compared to the nominal LHC beam (i.e. with nominal bunch intensity and 25 ns spacing) the other beams can be produced with lower transverse emittances. Beams of low transverse emittances are of interest during the commissioning phase for aperture considerations and because of the reduced long-range beam-beam effects. On the other hand machine protection considerations might lead to prefer nominal transverse emittances for safe machine operations. The purpose of this paper is to present the results of controlled transver...
A variety of low-intensity beams will be required for LHC commissioning. In contrast to the nominal ...
About 30 % of the potential luminosity performance is lost through the different phases of the LHC c...
About 30 % of the potential luminosity performance is lost through the different phases of the LHC c...
About 30 % of the potential luminosity performance is lost through the different phases of the LHC c...
The longitudinal emittance of the bunches in the CERN PS must be increased before transition crossin...
Transverse feedback systems are essential to preserve the small transverse emittances throughout the...
Controlled longitudinal emittance blow up is used, along with other measures, to stabilize the nomin...
The Large Hadron Collider (LHC) at CERN is a high energy storage ring that provides proton and heavy...
Preventive longitudinal emittance blow-up, in addition to a fourth harmonic Landau damping RF system...
The performance of the CERN LHC will depend heavily on the high-brightness beam delivered by the inj...
After recalling the reasons for high brighness beams in linear colliders, the question of the preser...
Today Hadron Accelerators with high intensity and high brightness beams increasingly rely on transve...
The LHC beam in the SPS is unstable with a threshold almost an order of magnitude below the nominal ...
The LHC relies on Landau damping for longitudinal stability. To avoid decreasing the stability margi...
Fast pulsed kicker magnets are used to extract beams from the SPS and inject them into the LHC. The ...
A variety of low-intensity beams will be required for LHC commissioning. In contrast to the nominal ...
About 30 % of the potential luminosity performance is lost through the different phases of the LHC c...
About 30 % of the potential luminosity performance is lost through the different phases of the LHC c...
About 30 % of the potential luminosity performance is lost through the different phases of the LHC c...
The longitudinal emittance of the bunches in the CERN PS must be increased before transition crossin...
Transverse feedback systems are essential to preserve the small transverse emittances throughout the...
Controlled longitudinal emittance blow up is used, along with other measures, to stabilize the nomin...
The Large Hadron Collider (LHC) at CERN is a high energy storage ring that provides proton and heavy...
Preventive longitudinal emittance blow-up, in addition to a fourth harmonic Landau damping RF system...
The performance of the CERN LHC will depend heavily on the high-brightness beam delivered by the inj...
After recalling the reasons for high brighness beams in linear colliders, the question of the preser...
Today Hadron Accelerators with high intensity and high brightness beams increasingly rely on transve...
The LHC beam in the SPS is unstable with a threshold almost an order of magnitude below the nominal ...
The LHC relies on Landau damping for longitudinal stability. To avoid decreasing the stability margi...
Fast pulsed kicker magnets are used to extract beams from the SPS and inject them into the LHC. The ...
A variety of low-intensity beams will be required for LHC commissioning. In contrast to the nominal ...
About 30 % of the potential luminosity performance is lost through the different phases of the LHC c...
About 30 % of the potential luminosity performance is lost through the different phases of the LHC c...