Add to ORKGA high pressure hydrogen gas filled RF cavity has been proposed for use in the muon collection system for a muon collider. It allows for high electric field gradients in RF cavities located in strong magnetic fields, a condition frequently encountered in a muon cooling channel. In addition, an intense muon beam will generate an electron swarm via the ionization process in the cavity. A large amount of RF power will be consumed into the swarm. We show the results from our studies of the HV RF breakdown in a cavity without a beam and present some results on the resulting electron swarm dynamics. This is preliminary to actual beam tests which will take place late in 2010
Understanding of the interaction of muon beams with plasma in muon cooling devices is important for ...
Understanding of the interaction of muon beams with plasma in muon cooling devices is important for ...
The muon collider and/or the neutrino factory require large accelerating electric field gradients im...
Ionization cooling is a critical building block for the realization of a muon collider. To suppress ...
Ionization cooling is a critical building block for the realization of a muon collider. To suppress ...
In order to demonstrate the feasibility of high pressure hydrogen gas filled RF (HPRF) cavities for ...
A muon collider or Higgs factory requires significant reduction of the six dimensional emittance of ...
The high energy physics community is continually looking to push the limits with respect to the ener...
Ionization cooling requires low-Z energy absorbers immersed in a strong magnetic field and high-grad...
The use of hydrogen gas filled RF cavities in muon cooling channels has been proposed by Rolland Joh...
A major technological challenge in building a muon cooling channel is operating rf cavities in multi...
Processes occurring in a radio-frequency (rf) cavity, filled with high pressure gas and interacting ...
A muon collider or Higgs factory requires significant reduction of the six dimensional emittance of ...
The influence of an intense beam in a high-pressure gas filled RF cavity has been measured by using ...
The RF breakdown of dense hydrogen gas between metallic electrodes has been studied as part of a pro...
Understanding of the interaction of muon beams with plasma in muon cooling devices is important for ...
Understanding of the interaction of muon beams with plasma in muon cooling devices is important for ...
The muon collider and/or the neutrino factory require large accelerating electric field gradients im...
Ionization cooling is a critical building block for the realization of a muon collider. To suppress ...
Ionization cooling is a critical building block for the realization of a muon collider. To suppress ...
In order to demonstrate the feasibility of high pressure hydrogen gas filled RF (HPRF) cavities for ...
A muon collider or Higgs factory requires significant reduction of the six dimensional emittance of ...
The high energy physics community is continually looking to push the limits with respect to the ener...
Ionization cooling requires low-Z energy absorbers immersed in a strong magnetic field and high-grad...
The use of hydrogen gas filled RF cavities in muon cooling channels has been proposed by Rolland Joh...
A major technological challenge in building a muon cooling channel is operating rf cavities in multi...
Processes occurring in a radio-frequency (rf) cavity, filled with high pressure gas and interacting ...
A muon collider or Higgs factory requires significant reduction of the six dimensional emittance of ...
The influence of an intense beam in a high-pressure gas filled RF cavity has been measured by using ...
The RF breakdown of dense hydrogen gas between metallic electrodes has been studied as part of a pro...
Understanding of the interaction of muon beams with plasma in muon cooling devices is important for ...
Understanding of the interaction of muon beams with plasma in muon cooling devices is important for ...
The muon collider and/or the neutrino factory require large accelerating electric field gradients im...