Add to ORKGThe electron cloud gives rise to coherent and incoherent single-bunch wake fields, both in the longitudinal and in the transverse direction, and to coherent coupled-bunch wakes. These wake fields can be computed using the simulation programs ECLOUD and HEADTAIL developed at CERN. We present the wake fields simulated for the LHC beam in the CERN SPS and at injection into the LHC in different magnetic field configurations (field-free region, dipole, and solenoid), where the magnetic field affects both the elec-tron motion during a bunch passage and the overall electron distribution in the beam pipe
A short-range wake field caused by the electron cloud has previously been studied for a drift space....
In the beam pipe of the Main Damping Ring (MDR) of the Next Linear Collider (NLC), ionization of re...
Electron Cloud (EC) effects represent a serious limitation for particle accelerators operating with ...
In positron and proton storage rings, electrons produced by photoemission, ionization, and secondary...
HEADTAIL is a simulation program developed at CERN which is aimed at studying the single-bunch insta...
In high energy accelerators operating with positively charged particles, photoemission and secondary...
Electron clouds can develop in accelerators operating with positively charged particles. The con- se...
In this paper we study the effect of low-density electron clouds on intense positively charged beams...
Recent observations at the LHC indicate the build-up of electron clouds when 50 ns spaced beams are ...
Several simulation codes have been adapted so as to model the single-bunch electron-cloud instabilit...
The formation of electron clouds in accelerators operating with positrons and positively charge ions...
In the beam pipe of high-energy proton or positron accelerators an “electron cloud” can be generated...
The electron cloud may cause transverse single-bunch instabilities of proton beams such as those in ...
In the beam pipe of the Main Damping Ring (MDR) of the Next Linear Collider (NLC), ionization of res...
In positron rings, electrons produced by photoemission and secondary emission accumulate in the v...
A short-range wake field caused by the electron cloud has previously been studied for a drift space....
In the beam pipe of the Main Damping Ring (MDR) of the Next Linear Collider (NLC), ionization of re...
Electron Cloud (EC) effects represent a serious limitation for particle accelerators operating with ...
In positron and proton storage rings, electrons produced by photoemission, ionization, and secondary...
HEADTAIL is a simulation program developed at CERN which is aimed at studying the single-bunch insta...
In high energy accelerators operating with positively charged particles, photoemission and secondary...
Electron clouds can develop in accelerators operating with positively charged particles. The con- se...
In this paper we study the effect of low-density electron clouds on intense positively charged beams...
Recent observations at the LHC indicate the build-up of electron clouds when 50 ns spaced beams are ...
Several simulation codes have been adapted so as to model the single-bunch electron-cloud instabilit...
The formation of electron clouds in accelerators operating with positrons and positively charge ions...
In the beam pipe of high-energy proton or positron accelerators an “electron cloud” can be generated...
The electron cloud may cause transverse single-bunch instabilities of proton beams such as those in ...
In the beam pipe of the Main Damping Ring (MDR) of the Next Linear Collider (NLC), ionization of res...
In positron rings, electrons produced by photoemission and secondary emission accumulate in the v...
A short-range wake field caused by the electron cloud has previously been studied for a drift space....
In the beam pipe of the Main Damping Ring (MDR) of the Next Linear Collider (NLC), ionization of re...
Electron Cloud (EC) effects represent a serious limitation for particle accelerators operating with ...