Add to ORKGWe report the design and fabrication of an 805 MHz RF cavity with beryllium (Be) windows for a muon cooling experiment. The cavity resembles closely to a cylindrical pillbox cavity with the conventional beam iris covered by thin Be foils to enhance on-axis accelerating fields. The Be windows are bolted to the cavity body to allow for easy replacement and testing for different windows. The cavity is to be installed within a super-conducting solenoid with magnetic field up to 5 Tesla, and tested at high RF power.
Previous RF experiments with normal-conducting cavities have demonstrated that there is a significan...
MICE (Muon Ionization Cooling Experiment) [1] is an international demonstration experiment for the i...
Previous RF experiments with normal-conducting cavities have demonstrated that there is a significan...
We report on the design and fabrication of an 805 MHz RF cavity with beryllium (Be) windows for a m...
A muon cooling channel calls for very high accelerating gradient RF structures to restore the energ...
We present a 201-MHz RF cavity design for muon cooling channels with non-stressed and pre-curved Be ...
We present a 201-MHz RF cavity design for muon cooling channels with non-stressed and pre-curved Be ...
A muon cooling channel calls for very high acceleratinggradient RF structures to restore the energy ...
We present recent high power RF test results on an 805 MHz cavity for a muon cooling experiment at L...
We describe the design, fabrication, analysis and preliminary testing of the prototype 201 MHz coppe...
We report recent high power RF tests on an 805 MHz RF pillbox cavity with demountable windows for be...
We describe the design, fabrication, analysis and preliminary testing of the prototype 201 MHz coppe...
The Muon Accelerator Program (MAP) collaboration is working to develop an ionization cooling channel...
Thesis (S.B.)--Massachusetts Institute of Technology, Dept. of Physics, 2011.Cataloged from PDF vers...
RF cavities for muon ionization cooling channels can be separated by RF windows to improve the inter...
Previous RF experiments with normal-conducting cavities have demonstrated that there is a significan...
MICE (Muon Ionization Cooling Experiment) [1] is an international demonstration experiment for the i...
Previous RF experiments with normal-conducting cavities have demonstrated that there is a significan...
We report on the design and fabrication of an 805 MHz RF cavity with beryllium (Be) windows for a m...
A muon cooling channel calls for very high accelerating gradient RF structures to restore the energ...
We present a 201-MHz RF cavity design for muon cooling channels with non-stressed and pre-curved Be ...
We present a 201-MHz RF cavity design for muon cooling channels with non-stressed and pre-curved Be ...
A muon cooling channel calls for very high acceleratinggradient RF structures to restore the energy ...
We present recent high power RF test results on an 805 MHz cavity for a muon cooling experiment at L...
We describe the design, fabrication, analysis and preliminary testing of the prototype 201 MHz coppe...
We report recent high power RF tests on an 805 MHz RF pillbox cavity with demountable windows for be...
We describe the design, fabrication, analysis and preliminary testing of the prototype 201 MHz coppe...
The Muon Accelerator Program (MAP) collaboration is working to develop an ionization cooling channel...
Thesis (S.B.)--Massachusetts Institute of Technology, Dept. of Physics, 2011.Cataloged from PDF vers...
RF cavities for muon ionization cooling channels can be separated by RF windows to improve the inter...
Previous RF experiments with normal-conducting cavities have demonstrated that there is a significan...
MICE (Muon Ionization Cooling Experiment) [1] is an international demonstration experiment for the i...
Previous RF experiments with normal-conducting cavities have demonstrated that there is a significan...