Add to ORKGThe electron cloud, caused by beam-induced multipacting is suspected to be one of the sources of pressure rises in RHIC. This paper estimates the possible electron cloud in RHIC, and investigates various parameters related to electron multipacting
Electron cloud is a leading mechanism limiting RHIC in-tensity upgrades. Electron cloud in RHIC is i...
Intense ion beams in the Brookhaven Relativistic Ion Collider lead to a rise in the vacuum pressure....
When RHIC is filled with bunches of intense ion beams a pressure rise is observed. The pressure rise...
Pressure rises with high intense beams are among the main luminosity limitations at RHIC. Observatio...
Pressure rises with high intense beams are among the main luminosity limitations at RHIC. Observatio...
The RHIC luminosity is limited by pressure rises with high intensity beams. At injection and store, ...
The RHIC luminosity is limited by pressure rises with high intensity beams. At injection and store, ...
Abstract OBSERVATIONS Since 2081 M I C has experienced electron cloud effects, which have Iimited th...
Intense ion beams in RHIC lead to a rise in the vacuum pressure. Electron clouds can contribute to s...
Effects of the beam loss, ion and electron gas desorption on the RHIC vacuum pressure bump have been...
Since 2081 MIC has experienced electron cloud effects, which have limited the beam intensity. These ...
The generation of a quasistationary electron cloud inside the beam pipe through beam-induced multipa...
In the beam pipe of high-energy proton or positron accelerators an “electron cloud” can be generated...
Abstract. Electron clouds are shown to cause pressure rises in the Relativistic Heavy Ion Collider. ...
Abstract. Electron clouds are shown to cause pressure rises in the Relativistic Heavy Ion Collider. ...
Electron cloud is a leading mechanism limiting RHIC in-tensity upgrades. Electron cloud in RHIC is i...
Intense ion beams in the Brookhaven Relativistic Ion Collider lead to a rise in the vacuum pressure....
When RHIC is filled with bunches of intense ion beams a pressure rise is observed. The pressure rise...
Pressure rises with high intense beams are among the main luminosity limitations at RHIC. Observatio...
Pressure rises with high intense beams are among the main luminosity limitations at RHIC. Observatio...
The RHIC luminosity is limited by pressure rises with high intensity beams. At injection and store, ...
The RHIC luminosity is limited by pressure rises with high intensity beams. At injection and store, ...
Abstract OBSERVATIONS Since 2081 M I C has experienced electron cloud effects, which have Iimited th...
Intense ion beams in RHIC lead to a rise in the vacuum pressure. Electron clouds can contribute to s...
Effects of the beam loss, ion and electron gas desorption on the RHIC vacuum pressure bump have been...
Since 2081 MIC has experienced electron cloud effects, which have limited the beam intensity. These ...
The generation of a quasistationary electron cloud inside the beam pipe through beam-induced multipa...
In the beam pipe of high-energy proton or positron accelerators an “electron cloud” can be generated...
Abstract. Electron clouds are shown to cause pressure rises in the Relativistic Heavy Ion Collider. ...
Abstract. Electron clouds are shown to cause pressure rises in the Relativistic Heavy Ion Collider. ...
Electron cloud is a leading mechanism limiting RHIC in-tensity upgrades. Electron cloud in RHIC is i...
Intense ion beams in the Brookhaven Relativistic Ion Collider lead to a rise in the vacuum pressure....
When RHIC is filled with bunches of intense ion beams a pressure rise is observed. The pressure rise...