Add to ORKGSynchrotron radiation interacting with the vacuum chamber walls in a storage ring produce photoelectrons that can be accelerated by the beam, acquiring sufficient energy to produce secondary electrons in collisions with the walls. If the secondary-electron yield (SEY) coefficient of the wall material is greater than one, as is the case with the aluminum chambers in the Advanced Photon Source (APS) storage ring, a runaway condition can develop. As the electron cloud builds up along a train of stored positron or electron bunches, the possibility exists that a transverse perturbation of the head bunch will be communicated to trailing bunches due to interaction with the cloud. In order to characterize the electron cloud, a special vacuum chambe...
We report on calculations of electron production by synchrotron radiation absorbed in the vacuum cha...
The Cornell Electron Storage Ring Test Accelerator program includes investigations into electron clo...
In studies with positron beams in the Advanced Photon Source, a dramatic amplification was observed ...
Low-energy, background electrons are ubiquitous in high-energy particle accelerators. Under certain ...
Photoelectrons produced through the interaction of syn-chrotron radiation and the vacuum chamber wal...
The achievable beam current and beam quality of a particle accelerator can be limited by the build-u...
The buildup of low-energy electrons has been shown to affect the performance of a wide variety of pa...
The presence of unwanted electrons in an accelerator vacuum chamber, known as E-cloud (E-cloud) can ...
High energy electron storage rings generate energetic bremsstrahlung photons through radiative inter...
The electron cloud is a possible heat source in the su-perconducting undulator (SCU) designed for th...
We compare experimental results with simulations of the electron cloud effect induced by a positron...
We compare experimental results with simulations of the electron cloud effect induced by a positron ...
positron storage ring when the machine is operated with multi-bunch positron beam. According to the ...
In studies with positron beams in the Advanced Photon Source, a dramatic amplification was observed...
In studies with positron beams in the Advanced Photon Source, a dramatic amplification was observed...
We report on calculations of electron production by synchrotron radiation absorbed in the vacuum cha...
The Cornell Electron Storage Ring Test Accelerator program includes investigations into electron clo...
In studies with positron beams in the Advanced Photon Source, a dramatic amplification was observed ...
Low-energy, background electrons are ubiquitous in high-energy particle accelerators. Under certain ...
Photoelectrons produced through the interaction of syn-chrotron radiation and the vacuum chamber wal...
The achievable beam current and beam quality of a particle accelerator can be limited by the build-u...
The buildup of low-energy electrons has been shown to affect the performance of a wide variety of pa...
The presence of unwanted electrons in an accelerator vacuum chamber, known as E-cloud (E-cloud) can ...
High energy electron storage rings generate energetic bremsstrahlung photons through radiative inter...
The electron cloud is a possible heat source in the su-perconducting undulator (SCU) designed for th...
We compare experimental results with simulations of the electron cloud effect induced by a positron...
We compare experimental results with simulations of the electron cloud effect induced by a positron ...
positron storage ring when the machine is operated with multi-bunch positron beam. According to the ...
In studies with positron beams in the Advanced Photon Source, a dramatic amplification was observed...
In studies with positron beams in the Advanced Photon Source, a dramatic amplification was observed...
We report on calculations of electron production by synchrotron radiation absorbed in the vacuum cha...
The Cornell Electron Storage Ring Test Accelerator program includes investigations into electron clo...
In studies with positron beams in the Advanced Photon Source, a dramatic amplification was observed ...