Add to ORKGCrab cavities are adapted as the baseline design for the LHC HiLumi upgrade to achieve head-on beam-beam collisions for further improvement in luminosity. A 400-MHz compact RF dipole crab cavity design was developed by a joint effort between Old Dominion University and SLAC under the support of US LARP program. This design has shown very favorable RF parameters and can fit into the available beamline spacing for either vertical and horizontal crabbing schemes. A niobium prototype cavity based on such a design has been manufactured for vertical test. In addition, there are stringent wakefield requirements that needed to be met for such a cavity in order to preserve the quality of the circulating beams. In this paper, we will discuss differen...
The HL-LHC upgrade relies on a set of RF crab cavities for reaching its goals. Two parallel concepts...
HOMs in the DQW crab cavity can produce large heat loads and beam instabilities as a result of the h...
The FNAL 9-cell 3.9 GHz deflecting cavity designed for the CKM experiment was chosen as the baseline...
Crab cavities are adapted as the baseline design for the LHC HiLumi upgrade to achieve head-on beam-...
Crab cavities are adapted as the baseline design for the LHC HiLumi upgrade to achieve head-on beam-...
Crab cavities are adapted as the baseline design for the LHC HiLumi upgrade to achieve head-on beam-...
The LHC is planning to employ crab cavities for the high luminosity upgrade. Old Dominion University...
A 400-MHz compact RF dipole (RFD) crab cavity design was jointly developed by Old Dominion Universit...
A 400-MHz compact RF dipole (RFD) crab cavity design was jointly developed by Old Dominion Universit...
A 400-MHz compact RF dipole (RFD) crab cavity design was jointly developed by Old Dominion Universit...
The recently developed new simplified design for the 400 MHz LHC crabbing cavity presents attractive...
As part of the High Luminosity Large Hadron Collider (HL-LHC) project, 16 crab cavities are to be in...
In this paper, we present an 800 MHz crab cavity conceptual design for the LHC upgrade. The cell sha...
The High-Luminosity upgrade for the LHC relies on a set of RF Crab Cavities for reaching its goals. ...
Crabbing cavities are one of the technological landmark that will allow the LHC to optimize its per-...
The HL-LHC upgrade relies on a set of RF crab cavities for reaching its goals. Two parallel concepts...
HOMs in the DQW crab cavity can produce large heat loads and beam instabilities as a result of the h...
The FNAL 9-cell 3.9 GHz deflecting cavity designed for the CKM experiment was chosen as the baseline...
Crab cavities are adapted as the baseline design for the LHC HiLumi upgrade to achieve head-on beam-...
Crab cavities are adapted as the baseline design for the LHC HiLumi upgrade to achieve head-on beam-...
Crab cavities are adapted as the baseline design for the LHC HiLumi upgrade to achieve head-on beam-...
The LHC is planning to employ crab cavities for the high luminosity upgrade. Old Dominion University...
A 400-MHz compact RF dipole (RFD) crab cavity design was jointly developed by Old Dominion Universit...
A 400-MHz compact RF dipole (RFD) crab cavity design was jointly developed by Old Dominion Universit...
A 400-MHz compact RF dipole (RFD) crab cavity design was jointly developed by Old Dominion Universit...
The recently developed new simplified design for the 400 MHz LHC crabbing cavity presents attractive...
As part of the High Luminosity Large Hadron Collider (HL-LHC) project, 16 crab cavities are to be in...
In this paper, we present an 800 MHz crab cavity conceptual design for the LHC upgrade. The cell sha...
The High-Luminosity upgrade for the LHC relies on a set of RF Crab Cavities for reaching its goals. ...
Crabbing cavities are one of the technological landmark that will allow the LHC to optimize its per-...
The HL-LHC upgrade relies on a set of RF crab cavities for reaching its goals. Two parallel concepts...
HOMs in the DQW crab cavity can produce large heat loads and beam instabilities as a result of the h...
The FNAL 9-cell 3.9 GHz deflecting cavity designed for the CKM experiment was chosen as the baseline...