Add to ORKGThe 56 MHz SRF Quarter-Wave Resonator (QWR) is designed for RHIC as a storage cavity to improve the collider performance. 2D multipacting simulation has been done for the cavity alone. Ripples were added to the outer body of the cavity for multipacting suppression based on the simulation findings. During operation, there will be four higher order mode (HOM) couplers. All of these components will be exposed to high RF fields. In this paper we compare 2D and 3D codes simulation results for multipacting in the cavity. We also report 3D simulation results for multipacting simulation at the couplers
The choice of a suitable geometry in designing a radio-frequency cavity for e+ e- storage ring allow...
Experimental and numerical studies of multipactor in rectangular waveguide geometries are discussed ...
In the framework of the SPIRAL II project, IPN Orsay is studying a 88 MHz beta 0.12 super conducting...
A beam excited 56 MHz Radio Frequency (RF) Niobium Quarter Wave Resonator (QWR) has been proposed to...
Multipacting (MP) has recently received a renewed in-terest in the community of superconducting RF. ...
Multipacting (MP) in higher-order-mode (HOM) couplers of the International Linear Collider (ILC) bas...
Multipacting (MP) in higher-order-mode (HOM) couplers of the International Linear Collider (ILC) bas...
We propose using a beam excited 56 MHz radio frequency (rf) niobium quarter wave resonator (QWR) to ...
International audienceThe multipactor effect can lead to thermal breakdown (quench), high field emis...
A new computer code for simulation of multipacting phenomenon in axisymmetrical radio frequency stru...
A code was developed in order to investigate multipactor occurrence in accelerating cavities and pow...
This work simulates multipaction in a 700 MHz elliptical SRF cavity. The cavity design is optimized ...
Multipacting MP is a resonating electron discharge, often plaguing radio frequency RF structure...
A superconducting quarter wave resonator (QWR) of frequency=162.5 MHz and ??=0.085 has been designed...
International audienceMultipacting (MP) is a resonating electron discharge, often plaguing radio-fre...
The choice of a suitable geometry in designing a radio-frequency cavity for e+ e- storage ring allow...
Experimental and numerical studies of multipactor in rectangular waveguide geometries are discussed ...
In the framework of the SPIRAL II project, IPN Orsay is studying a 88 MHz beta 0.12 super conducting...
A beam excited 56 MHz Radio Frequency (RF) Niobium Quarter Wave Resonator (QWR) has been proposed to...
Multipacting (MP) has recently received a renewed in-terest in the community of superconducting RF. ...
Multipacting (MP) in higher-order-mode (HOM) couplers of the International Linear Collider (ILC) bas...
Multipacting (MP) in higher-order-mode (HOM) couplers of the International Linear Collider (ILC) bas...
We propose using a beam excited 56 MHz radio frequency (rf) niobium quarter wave resonator (QWR) to ...
International audienceThe multipactor effect can lead to thermal breakdown (quench), high field emis...
A new computer code for simulation of multipacting phenomenon in axisymmetrical radio frequency stru...
A code was developed in order to investigate multipactor occurrence in accelerating cavities and pow...
This work simulates multipaction in a 700 MHz elliptical SRF cavity. The cavity design is optimized ...
Multipacting MP is a resonating electron discharge, often plaguing radio frequency RF structure...
A superconducting quarter wave resonator (QWR) of frequency=162.5 MHz and ??=0.085 has been designed...
International audienceMultipacting (MP) is a resonating electron discharge, often plaguing radio-fre...
The choice of a suitable geometry in designing a radio-frequency cavity for e+ e- storage ring allow...
Experimental and numerical studies of multipactor in rectangular waveguide geometries are discussed ...
In the framework of the SPIRAL II project, IPN Orsay is studying a 88 MHz beta 0.12 super conducting...