Add to ORKGCrab cavities rotate bunches from opposing beams to achieve effective head-on collision in CLIC or collisions at an adjustable angle in LHC. Without crab cavities 90% of achievable luminosity at CLIC would be lost. In the LHC, the crab cavities allow the same or larger integrated luminosity while reducing significantly the requested dynamic range of physics detectors. The focus for CLIC is accurate phase synchronisation of the cavities, adequate damping of wakefields and modest amplitude stability. For the LHC, the main LLRF issues are related to imperfections: beam offsets in cavities, RF noise, measurement noise in feedback loops, failure modes and mitigations. This report develops issues associated with synchronising the CLIC cavities. I...
The High-Luminosity LHC (HL-LHC) crab cavities (CCs) will be installed on both sides of IP1 (A...
Many future particle colliders require beam crabbing to recover geometric luminosity loss from the n...
RF design of a crab cavity (2π/3, 11.9942 GHz) for the Compact Linear Collide (CLIC) is presented. A...
Crab cavities rotate bunches from opposing beams to achieve effective head-on collision in CLIC or c...
The Compact Linear Collider (CLIC) is a proposed electron positron linear collider design aiming to ...
The LHC crab cavity program is advancing rapidly towards a first prototype which is anticipated to b...
The compact linear collider (CLIC) requires a crab cavity to align bunches prior to collision. The b...
Modern colliders bring into collision a large number of bunches to achieve a high luminosity. The lo...
Crab cavities (CCs) apply a transverse kick that rotates the bunches so as to have a head-on collisi...
Crab cavities (CCs) apply a transverse kick that rotates the bunches so as to have a head-on collisi...
A number of particle accelerators worldwide require RF crab cavities for a number of applications, i...
The design of the High-Luminosity Large Hadron Collider (HL-LHC) requires two pairs of crab cavities...
The high luminosity upgrade planned for the LHC requires crab cavities to rotate bunches into alignm...
The bunch size and crossing angle planned for CERN's compact linear collider CLIC dictate that crab ...
The crab cavities are a critical component in the high luminosity LHC upgrade project to compensate ...
The High-Luminosity LHC (HL-LHC) crab cavities (CCs) will be installed on both sides of IP1 (A...
Many future particle colliders require beam crabbing to recover geometric luminosity loss from the n...
RF design of a crab cavity (2π/3, 11.9942 GHz) for the Compact Linear Collide (CLIC) is presented. A...
Crab cavities rotate bunches from opposing beams to achieve effective head-on collision in CLIC or c...
The Compact Linear Collider (CLIC) is a proposed electron positron linear collider design aiming to ...
The LHC crab cavity program is advancing rapidly towards a first prototype which is anticipated to b...
The compact linear collider (CLIC) requires a crab cavity to align bunches prior to collision. The b...
Modern colliders bring into collision a large number of bunches to achieve a high luminosity. The lo...
Crab cavities (CCs) apply a transverse kick that rotates the bunches so as to have a head-on collisi...
Crab cavities (CCs) apply a transverse kick that rotates the bunches so as to have a head-on collisi...
A number of particle accelerators worldwide require RF crab cavities for a number of applications, i...
The design of the High-Luminosity Large Hadron Collider (HL-LHC) requires two pairs of crab cavities...
The high luminosity upgrade planned for the LHC requires crab cavities to rotate bunches into alignm...
The bunch size and crossing angle planned for CERN's compact linear collider CLIC dictate that crab ...
The crab cavities are a critical component in the high luminosity LHC upgrade project to compensate ...
The High-Luminosity LHC (HL-LHC) crab cavities (CCs) will be installed on both sides of IP1 (A...
Many future particle colliders require beam crabbing to recover geometric luminosity loss from the n...
RF design of a crab cavity (2π/3, 11.9942 GHz) for the Compact Linear Collide (CLIC) is presented. A...