Electron clouds have been shown to trigger fast growing instabilities on proton beams circulating in the SPS, and a feedback system to control the instabilities is under active development. We present the latest improvements to the Warp-Posinst simulation framework and feedback model, and its application to the self-consistent simulations of two consecutive bunches interacting with an electron cloud in the SPS
The feedback control of intra-bunch instabilities driven by electron-clouds or strong head-tail coup...
A feedback module has been implemented in the HEADTAIL simulation code in order to investigate the f...
Electron cloud effects have been recently observed in the CERN SPS in the presence of LHC type proto...
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...
The simulation package WARP-POSINST was recently upgraded for handling multiple bunches and modeling...
The simulation package WARP-POSINST was recently upgraded for handling multiple bunches and modeling...
Electron clouds impose limitations on current accelerators that may be more severe for future machin...
Transverse Single-Bunch Instabilities due to the Electron Cloud effect are limiting the operation at...
Single and multi-bunch instabilities on bunch trains driven by electron clouds have been observed in...
Photoemission, or gas ionization, and secondary emission can give rise to a quasi-stationary electro...
The operation at high current of high-energy proton machines like the SPS at CERN is affected by tra...
The electron cloud may cause transverse single-bunch instabilities of proton beams such as those in ...
Transverse mode coupling (TMCI) and electron cloud instabilities (ECI) pose fundamental limitations ...
We present initial results for the self-consistent beam-cloud dynamics simulations for a sample LHC ...
The feedback control of intra-bunch instabilities driven by electron-clouds or strong head-tail coup...
A feedback module has been implemented in the HEADTAIL simulation code in order to investigate the f...
Electron cloud effects have been recently observed in the CERN SPS in the presence of LHC type proto...
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...
The simulation package WARP-POSINST was recently upgraded for handling multiple bunches and modeling...
The simulation package WARP-POSINST was recently upgraded for handling multiple bunches and modeling...
Electron clouds impose limitations on current accelerators that may be more severe for future machin...
Transverse Single-Bunch Instabilities due to the Electron Cloud effect are limiting the operation at...
Single and multi-bunch instabilities on bunch trains driven by electron clouds have been observed in...
Photoemission, or gas ionization, and secondary emission can give rise to a quasi-stationary electro...
The operation at high current of high-energy proton machines like the SPS at CERN is affected by tra...
The electron cloud may cause transverse single-bunch instabilities of proton beams such as those in ...
Transverse mode coupling (TMCI) and electron cloud instabilities (ECI) pose fundamental limitations ...
We present initial results for the self-consistent beam-cloud dynamics simulations for a sample LHC ...
The feedback control of intra-bunch instabilities driven by electron-clouds or strong head-tail coup...
A feedback module has been implemented in the HEADTAIL simulation code in order to investigate the f...
Electron cloud effects have been recently observed in the CERN SPS in the presence of LHC type proto...