Add to ORKGIn LHC upgrade scenarios using global crab crossing, it is desired to turn on the crab cavity only at top energy. Turning on the crab cavity could increase the emittance of the stored beam, since the transverse kick of the crab cavity excites betatron oscillations. For a sufficiently slow ramping speed of the crab cavity voltage, however, the changes in z-dependent closed orbit are sufficiently adiabatic that the emittance growth becomes negligible. In order to determine the safe ramping speed of the LHC crab-cavity voltage, the dependence of the emittance growth on the ramping speed is estimated via a 6D particle-tracking simulation
Crab cavities (CCs) apply a transverse kick that rotates the bunches so as to have a head-on collisi...
AbstractThe high luminosity upgrade planned for the LHC requires crab cavities to rotate bunches int...
Crab cavities (CCs) apply a transverse kick that rotates the bunches so as to have a head-on collisi...
High luminosity LHC upgrade will improve the luminosity of the current LHC operation by an order of ...
High luminosity LHC upgrade will improve the luminosity of the current LHC operation by an order of ...
Modern colliders bring into collision a large number of bunches to achieve a high luminosity. The lo...
The emittance growth in the HL-LHC due to beam– beam effects is examined by virtue of strong–strong ...
The high-luminosity LHC (HiLumi LHC) upgrade with planned operation from 2025 onward has a goal of a...
The crab cavities are a critical component in the high luminosity LHC upgrade project to compensate ...
Crab cavities are an important component of the LHC upgrade, and will contribute strongly to achievi...
The LHC crab cavity program is advancing rapidly towards a first prototype which is anticipated to b...
In this note, we discuss the possible installation and impact on the beam of a single global crab ca...
The high luminosity upgrade planned for the LHC requires crab cavities to rotate bunches into alignm...
Beam collisions with a crossing angle at the interaction point have been applied in high intensity c...
Many future particle colliders require beam crabbing to recover geometric luminosity loss from the n...
Crab cavities (CCs) apply a transverse kick that rotates the bunches so as to have a head-on collisi...
AbstractThe high luminosity upgrade planned for the LHC requires crab cavities to rotate bunches int...
Crab cavities (CCs) apply a transverse kick that rotates the bunches so as to have a head-on collisi...
High luminosity LHC upgrade will improve the luminosity of the current LHC operation by an order of ...
High luminosity LHC upgrade will improve the luminosity of the current LHC operation by an order of ...
Modern colliders bring into collision a large number of bunches to achieve a high luminosity. The lo...
The emittance growth in the HL-LHC due to beam– beam effects is examined by virtue of strong–strong ...
The high-luminosity LHC (HiLumi LHC) upgrade with planned operation from 2025 onward has a goal of a...
The crab cavities are a critical component in the high luminosity LHC upgrade project to compensate ...
Crab cavities are an important component of the LHC upgrade, and will contribute strongly to achievi...
The LHC crab cavity program is advancing rapidly towards a first prototype which is anticipated to b...
In this note, we discuss the possible installation and impact on the beam of a single global crab ca...
The high luminosity upgrade planned for the LHC requires crab cavities to rotate bunches into alignm...
Beam collisions with a crossing angle at the interaction point have been applied in high intensity c...
Many future particle colliders require beam crabbing to recover geometric luminosity loss from the n...
Crab cavities (CCs) apply a transverse kick that rotates the bunches so as to have a head-on collisi...
AbstractThe high luminosity upgrade planned for the LHC requires crab cavities to rotate bunches int...
Crab cavities (CCs) apply a transverse kick that rotates the bunches so as to have a head-on collisi...