The compact linear collider (CLIC) requires a crab cavity to align bunches prior to collision. The bunch structure demands tight amplitude and phase tolerances of the RF fields inside the cavity, for the minimal luminosity loss. Beam loading effects require special attention as it is one potential sources of field errors in the cavity. In order to assist the amplitude and phase control, we propose a travelling wave (TW) structure with a high group velocity allowing rapid propagation of errors out of the system. Such a design makes the cavity structure significantly different from previous ones. This paper will look at the implications of this on other cavity parameters and the optimisation of the cavity geometry
Crab cavities rotate bunches from opposing beams to achieve effective head-on collision in CLIC or c...
Crab cavities rotate bunches from opposing beams to achieve effective head-on collision in CLIC or c...
The starting point of Sub-task 2 is to document the currently anticipated requirements for the CLIC ...
The compact linear collider (CLIC) requires a crab cavity to align bunches prior to collision. The b...
The bunch size and crossing angle planned for CERN's compact linear collider CLIC dictate that crab ...
The Compact Linear Collider (CLIC) is a proposed electron positron linear collider design aiming to ...
The CLIC machine incorporates a 20 mrad crossing angle at the IP to aid the extraction of spent beam...
The CLIC machine incorporates a 20 mrad crossing angle at the IP to aid the extraction of spent beam...
Crab cavities have been proposed for a wide number of accelerators and interest in crab cavities has...
The CLIC machine incorporates a 20 mrad crossing angle at the IP to aid the extraction of spent beam...
A crab cavity is required in the CLIC to allow effective head-on collision of bunches at the IP. A h...
A crab cavity is required in the CLIC to allow effective head-on collision of bunches at the IP. A h...
RF design of a crab cavity (2π/3, 11.9942 GHz) for the Compact Linear Collide (CLIC) is presented. A...
A number of particle accelerators worldwide require RF crab cavities for a number of applications, i...
CERN’s Compact linear collider (CLIC) will require crab cavities to align the bunches to provide eff...
Crab cavities rotate bunches from opposing beams to achieve effective head-on collision in CLIC or c...
Crab cavities rotate bunches from opposing beams to achieve effective head-on collision in CLIC or c...
The starting point of Sub-task 2 is to document the currently anticipated requirements for the CLIC ...
The compact linear collider (CLIC) requires a crab cavity to align bunches prior to collision. The b...
The bunch size and crossing angle planned for CERN's compact linear collider CLIC dictate that crab ...
The Compact Linear Collider (CLIC) is a proposed electron positron linear collider design aiming to ...
The CLIC machine incorporates a 20 mrad crossing angle at the IP to aid the extraction of spent beam...
The CLIC machine incorporates a 20 mrad crossing angle at the IP to aid the extraction of spent beam...
Crab cavities have been proposed for a wide number of accelerators and interest in crab cavities has...
The CLIC machine incorporates a 20 mrad crossing angle at the IP to aid the extraction of spent beam...
A crab cavity is required in the CLIC to allow effective head-on collision of bunches at the IP. A h...
A crab cavity is required in the CLIC to allow effective head-on collision of bunches at the IP. A h...
RF design of a crab cavity (2π/3, 11.9942 GHz) for the Compact Linear Collide (CLIC) is presented. A...
A number of particle accelerators worldwide require RF crab cavities for a number of applications, i...
CERN’s Compact linear collider (CLIC) will require crab cavities to align the bunches to provide eff...
Crab cavities rotate bunches from opposing beams to achieve effective head-on collision in CLIC or c...
Crab cavities rotate bunches from opposing beams to achieve effective head-on collision in CLIC or c...
The starting point of Sub-task 2 is to document the currently anticipated requirements for the CLIC ...