Photoemission and secondary emission are known to give rise to a quasistationary electron cloud inside the beam pipe through a beam-induced multipacting process. We investigate the electron-cloud build up and related effects via computer simulation. In our model, macroparticles representing photoelectrons are emitted synchronously with the passing proton or positron bunch and are subsequently accelerated in the field of the beam. As they hit the beam pipe, new macroelectrons are generated, whose charges are determined by the energy of the incoming particles and by the secondary emission yield of the beam pipe. A quasistationary state of the electron cloud is eventually reached due to space charge. The equilibrium density is used as an input...
The qualitative analysis of the electron cloud formation is presented. Two mechanisms of the cloud f...
International audienceElectron clouds forming inside the beam vacuum chamber due to photoemission an...
Any intense positively-charged beam creates a cloud of electrons in the vacuum chamber. This cloud c...
Photoemission, or gas ionization, and secondary emission can give rise to a quasi-stationary electro...
Over a few bunch passages photoemission and secondary emission could generate a quasi-stationary ele...
In the beam pipe of high-energy proton or positron accelerators an “electron cloud” can be generated...
In high energy accelerators operating with positively charged particles, photoemission and secondary...
During the beam commissioning of the Large Hadron Collider (LHC) with 150, 75, 50, and 25-ns bunch s...
The generation of a quasistationary electron cloud inside the beam pipe through beam-induced multipa...
Electron clouds can develop in accelerators operating with positively charged particles. The con- se...
The heat load due to the electron cloud in the Large Hadron Collider (LHC) cold arcs is a concern fo...
Stray electrons can be introduced in heavy ion fusion accelerators as a result of ionization of ambi...
A simple quasi-analytic model is developed for the dynamics of electron cloud generated by synchrotr...
The electron cloud may cause transverse single-bunch instabilities of proton beams such as those in ...
Stray electrons can be introduced in heavy ion fusion accelerators as a result of ionization of amb...
The qualitative analysis of the electron cloud formation is presented. Two mechanisms of the cloud f...
International audienceElectron clouds forming inside the beam vacuum chamber due to photoemission an...
Any intense positively-charged beam creates a cloud of electrons in the vacuum chamber. This cloud c...
Photoemission, or gas ionization, and secondary emission can give rise to a quasi-stationary electro...
Over a few bunch passages photoemission and secondary emission could generate a quasi-stationary ele...
In the beam pipe of high-energy proton or positron accelerators an “electron cloud” can be generated...
In high energy accelerators operating with positively charged particles, photoemission and secondary...
During the beam commissioning of the Large Hadron Collider (LHC) with 150, 75, 50, and 25-ns bunch s...
The generation of a quasistationary electron cloud inside the beam pipe through beam-induced multipa...
Electron clouds can develop in accelerators operating with positively charged particles. The con- se...
The heat load due to the electron cloud in the Large Hadron Collider (LHC) cold arcs is a concern fo...
Stray electrons can be introduced in heavy ion fusion accelerators as a result of ionization of ambi...
A simple quasi-analytic model is developed for the dynamics of electron cloud generated by synchrotr...
The electron cloud may cause transverse single-bunch instabilities of proton beams such as those in ...
Stray electrons can be introduced in heavy ion fusion accelerators as a result of ionization of amb...
The qualitative analysis of the electron cloud formation is presented. Two mechanisms of the cloud f...
International audienceElectron clouds forming inside the beam vacuum chamber due to photoemission an...
Any intense positively-charged beam creates a cloud of electrons in the vacuum chamber. This cloud c...