Add to ORKGStudies of waveguide damped 30 GHz accelerating structures for multibunching in CLIC are described. Frequency discriminated damping using waveguides with a lowest cutoff frequency above the fundamental but below the higher order modes was considered. The wakefield behavior was investigated using time domain MAFIA computations over up to 20 cells and for frequencies up to 150 GHz. A configuration consisting of four T-cross-sectioned waveguides per cell reduces the transverse wake below 1 % at typical CLIC bunch spacings
Prototype accelerating structures for the Compact Linear Collider (CLIC) are being developed and hig...
Accelerating structures with strong transverse-mode damping are required in both the 30 GHz CLIC mai...
A damped detuned structure for the main X-band linacs of CLIC is being investigated as an alternativ...
Studies of waveguide damped 30 GHz accelerating structures for multibunching in CLIC are described. ...
A new 30 GHz multibunch accelerating structure incorporating both damping and detuning has been desi...
A 30 GHz Planar accelerating structure has been designed for the Compact Linear Collider (CLIC). It ...
The baseline design of the CLIC accelerating structure foresees a moderate detuning and heavy dampin...
Two of the main requirements for CLIC 30 GHz accelerating structures are an average accelerating gra...
This work presents an optimized damping waveguide structure designed to satisfy the radio frequency ...
One of the major challenges in designing a multi bunch structure for the Compact Linear Collider Stu...
Two of the main requirements for CLIC 30 GHz accel-erating structures are an average accelerating gr...
Transverse wakefield suppression in the CLIC (Compact Linear Collider) multibunch accelerating struc...
This document describes the design procedure and numerical techniques used to optimize waveguidedamp...
The present design of the main accelerating structure for CLIC is based on heavy damping (WDS) with ...
The CLIC multibunch accelerating structure, called the TDS (Tapered Damped Structure), relies on hea...
Prototype accelerating structures for the Compact Linear Collider (CLIC) are being developed and hig...
Accelerating structures with strong transverse-mode damping are required in both the 30 GHz CLIC mai...
A damped detuned structure for the main X-band linacs of CLIC is being investigated as an alternativ...
Studies of waveguide damped 30 GHz accelerating structures for multibunching in CLIC are described. ...
A new 30 GHz multibunch accelerating structure incorporating both damping and detuning has been desi...
A 30 GHz Planar accelerating structure has been designed for the Compact Linear Collider (CLIC). It ...
The baseline design of the CLIC accelerating structure foresees a moderate detuning and heavy dampin...
Two of the main requirements for CLIC 30 GHz accelerating structures are an average accelerating gra...
This work presents an optimized damping waveguide structure designed to satisfy the radio frequency ...
One of the major challenges in designing a multi bunch structure for the Compact Linear Collider Stu...
Two of the main requirements for CLIC 30 GHz accel-erating structures are an average accelerating gr...
Transverse wakefield suppression in the CLIC (Compact Linear Collider) multibunch accelerating struc...
This document describes the design procedure and numerical techniques used to optimize waveguidedamp...
The present design of the main accelerating structure for CLIC is based on heavy damping (WDS) with ...
The CLIC multibunch accelerating structure, called the TDS (Tapered Damped Structure), relies on hea...
Prototype accelerating structures for the Compact Linear Collider (CLIC) are being developed and hig...
Accelerating structures with strong transverse-mode damping are required in both the 30 GHz CLIC mai...
A damped detuned structure for the main X-band linacs of CLIC is being investigated as an alternativ...