The simulation package WARP-POSINST was recently upgraded for handling multiple bunches and modeling concurrently the electron cloud buildup and its effect on the beam, allowing for direct self-consistent simulation of bunch trains generating, and interacting with, electron clouds. We have used the WARP-POSINST package on massively parallel supercomputers to study the growth rate and frequency patterns in space-time of the electron cloud driven transverse instability for a proton bunch train in the CERN SPS accelerator. Results suggest that a positive feedback mechanism exists between the electron buildup and the e-cloud driven transverse instability, leading to a net increase in predicted electron density. Comparisons to selected experimen...
In proton and positron storage rings with many closely spaced bunches, a large number of electrons c...
To predict the evolution of electron clouds and their effect on the beam, the high energy physics co...
The electron cloud instability limits the performance of many existing proton and positron rings. A ...
The simulation package WARP-POSINST was recently upgraded for handling multiple bunches and modeling...
Electron clouds have been shown to trigger fast growing instabilities on proton beams circulating in...
Electron clouds have been shown to trigger fast growing instabilities on proton beams circulating in...
Electron clouds have been shown to trigger fast growing instabilities on proton beams circulating in...
Photoemission, or gas ionization, and secondary emission can give rise to a quasi-stationary electro...
Experimental observations on the electron cloud have been collected at the CERN Proton Synchrotron m...
The electron cloud may cause transverse single-bunch instabilities of proton beams such as those in ...
Electron clouds impose limitations on current accelerators that may be more severe for future machin...
The beam-induced electron cloud buildup is one of the major concerns for the SPS and the design of t...
In high energy accelerators operating with positively charged particles, photoemission and secondary...
The beam-induced electron cloud build-up is one of the major concerns for the SPS and the design of ...
Single and multi-bunch instabilities on bunch trains driven by electron clouds have been observed in...
In proton and positron storage rings with many closely spaced bunches, a large number of electrons c...
To predict the evolution of electron clouds and their effect on the beam, the high energy physics co...
The electron cloud instability limits the performance of many existing proton and positron rings. A ...
The simulation package WARP-POSINST was recently upgraded for handling multiple bunches and modeling...
Electron clouds have been shown to trigger fast growing instabilities on proton beams circulating in...
Electron clouds have been shown to trigger fast growing instabilities on proton beams circulating in...
Electron clouds have been shown to trigger fast growing instabilities on proton beams circulating in...
Photoemission, or gas ionization, and secondary emission can give rise to a quasi-stationary electro...
Experimental observations on the electron cloud have been collected at the CERN Proton Synchrotron m...
The electron cloud may cause transverse single-bunch instabilities of proton beams such as those in ...
Electron clouds impose limitations on current accelerators that may be more severe for future machin...
The beam-induced electron cloud buildup is one of the major concerns for the SPS and the design of t...
In high energy accelerators operating with positively charged particles, photoemission and secondary...
The beam-induced electron cloud build-up is one of the major concerns for the SPS and the design of ...
Single and multi-bunch instabilities on bunch trains driven by electron clouds have been observed in...
In proton and positron storage rings with many closely spaced bunches, a large number of electrons c...
To predict the evolution of electron clouds and their effect on the beam, the high energy physics co...
The electron cloud instability limits the performance of many existing proton and positron rings. A ...