Add to ORKGRF cavities pressurized with hydrogen gas may provide effective muon beam ionization cooling needed for muon colliders. Recent 805 MHz test cell studies reported below include the first use of SF{sub 6} dopant to reduce the effects of the electrons that will be produced by the ionization cooling process in hydrogen or helium. Measurements of maximum gradient in the Paschen region are compared to a simulation model for a 0.01% SF{sub 6} doping of hydrogen. The observed good agreement of the model with the measurements is a prerequisite to the investigation of other dopants
Abstract A six-dimensional (6D) ionization cooling channel based on helical magnets surrounding RF c...
In Muon Ionisation Cooling, closely packed high-field RF cavities are interspersed with energy-absor...
There is an on going international collaboration studying the feasibility and cost of building a muo...
A major technological challenge in building a muon cooling channel is operating rf cavities in multi...
A muon collider or Higgs factory requires significant reduction of the six dimensional emittance of ...
Ionization cooling requires low-Z energy absorbers immersed in a strong magnetic field and high-grad...
The RF breakdown of dense hydrogen gas between metallic electrodes has been studied as part of a pro...
An intense beam of muons is needed to provide a luminosity on the order of 10(34) cm(-2)s(-1) for a ...
A muon collider or Higgs factory requires significant reduction of the six dimensional emittance of ...
Efficient muon cooling requires high RF gradients in the presence of high (3T) solenoidal fields. Th...
The MuCool Experiment has been continuing to take data with805 and 201 MHz cavities in the MuCool Te...
The MuCool Experiment has been continuing to take data with 805 and 201 MHz cavities in the MuCool T...
The use of hydrogen gas filled RF cavities in muon cooling channels has been proposed by Rolland Joh...
The high energy physics community is continually looking to push the limits with respect to the ener...
A muon cooling channel calls for very high accelerating gradient RF structures to restore the energ...
Abstract A six-dimensional (6D) ionization cooling channel based on helical magnets surrounding RF c...
In Muon Ionisation Cooling, closely packed high-field RF cavities are interspersed with energy-absor...
There is an on going international collaboration studying the feasibility and cost of building a muo...
A major technological challenge in building a muon cooling channel is operating rf cavities in multi...
A muon collider or Higgs factory requires significant reduction of the six dimensional emittance of ...
Ionization cooling requires low-Z energy absorbers immersed in a strong magnetic field and high-grad...
The RF breakdown of dense hydrogen gas between metallic electrodes has been studied as part of a pro...
An intense beam of muons is needed to provide a luminosity on the order of 10(34) cm(-2)s(-1) for a ...
A muon collider or Higgs factory requires significant reduction of the six dimensional emittance of ...
Efficient muon cooling requires high RF gradients in the presence of high (3T) solenoidal fields. Th...
The MuCool Experiment has been continuing to take data with805 and 201 MHz cavities in the MuCool Te...
The MuCool Experiment has been continuing to take data with 805 and 201 MHz cavities in the MuCool T...
The use of hydrogen gas filled RF cavities in muon cooling channels has been proposed by Rolland Joh...
The high energy physics community is continually looking to push the limits with respect to the ener...
A muon cooling channel calls for very high accelerating gradient RF structures to restore the energ...
Abstract A six-dimensional (6D) ionization cooling channel based on helical magnets surrounding RF c...
In Muon Ionisation Cooling, closely packed high-field RF cavities are interspersed with energy-absor...
There is an on going international collaboration studying the feasibility and cost of building a muo...