The RF cavity for the Medium Energy Booster (MEB) is required to accept beam from the low energy booster (LEB) at a momentum of 12 GeV/c (possibly 10 GeV/c) and accelerate it to 200 GeV/c. Each cavity must provide a maximum gap voltage of 250 kV, and must be tunable from 59.7 MHz to 59.96 MHz with a maximum sweep rate of 450 kHz/s. This requires a ferrite-tuned cavity with a high quality factor. A quarter-wave cavity was designed which meets these requirements while mini-mizing beam-loading problems (minimizes R/Q). This paper describes the design of this cavity, results from measurements of a corresponding cold model, and sev-eral proposed Higher Order Mode (HOM) damping sys-tem designs. 1
At present, many accelerators favour the use of SC cavities as accelerating RF structures. For some ...
We report on the design and development of a strongly HOM damped copper RF cavity for the NLC dampi...
A 56 MHz Superconducting RF cavity is under development for the Relativistic Heavy Ion Collider (RHI...
Booster synchrotrons, such as the SSC Low Energy Booster, typically require a megavolt rf system whi...
The Booster synchrotron at Fermilab employs eighteen 37-53 MHz ferrite-tuned double-gap coaxial radi...
A tunable, high-accelerating-gradient cavity has been designed for use in the t-f system of the Low ...
To improve RHIC luminosity for heavy ion beam energies below 10 GeV/nucleon, the Low Energy RHIC el...
The design concepts for ferrite-tuned accelerating cavities discussed in this paper differ from conv...
Each of the 4 PS Booster rings has a single accelerating cavity. It consists of 2 quarter-wave ferri...
This report contains a summary of the R&D activities at LBNL on RF cavities for the NLC damping ...
INTRODUCTION A HOM damped cavity for the ATF damping ring (DR) [1] is under development at KEK. Thi...
Future light sources based on seeded free electron lasers (FEL) have the potential to increase the s...
Energy Recovery LINAC (ERL) and LINAC-driven FEL proposals and developments are now widespread aroun...
A low to medium energy recovery linac facility from 150-450-900 MeV in several stages is under study...
AbstractThe Brookhaven Energy Recovery Linac (ERL) is operated as an R&D test bed for high-current, ...
At present, many accelerators favour the use of SC cavities as accelerating RF structures. For some ...
We report on the design and development of a strongly HOM damped copper RF cavity for the NLC dampi...
A 56 MHz Superconducting RF cavity is under development for the Relativistic Heavy Ion Collider (RHI...
Booster synchrotrons, such as the SSC Low Energy Booster, typically require a megavolt rf system whi...
The Booster synchrotron at Fermilab employs eighteen 37-53 MHz ferrite-tuned double-gap coaxial radi...
A tunable, high-accelerating-gradient cavity has been designed for use in the t-f system of the Low ...
To improve RHIC luminosity for heavy ion beam energies below 10 GeV/nucleon, the Low Energy RHIC el...
The design concepts for ferrite-tuned accelerating cavities discussed in this paper differ from conv...
Each of the 4 PS Booster rings has a single accelerating cavity. It consists of 2 quarter-wave ferri...
This report contains a summary of the R&D activities at LBNL on RF cavities for the NLC damping ...
INTRODUCTION A HOM damped cavity for the ATF damping ring (DR) [1] is under development at KEK. Thi...
Future light sources based on seeded free electron lasers (FEL) have the potential to increase the s...
Energy Recovery LINAC (ERL) and LINAC-driven FEL proposals and developments are now widespread aroun...
A low to medium energy recovery linac facility from 150-450-900 MeV in several stages is under study...
AbstractThe Brookhaven Energy Recovery Linac (ERL) is operated as an R&D test bed for high-current, ...
At present, many accelerators favour the use of SC cavities as accelerating RF structures. For some ...
We report on the design and development of a strongly HOM damped copper RF cavity for the NLC dampi...
A 56 MHz Superconducting RF cavity is under development for the Relativistic Heavy Ion Collider (RHI...