Add to ORKGThe 28 MHz accelerating system consists of a quarter wave cavity driven by an inductively coupled 100kW tetrode amplifer and 1kW solid state driver amplifer. 40dB of rf feedback closed around the cavity and amplifers reduces small perturbations within the loop by a factor of 100, and reduces the time required to shift the phase at transition by a factor of 10, limited by the saturation of the drive chain. The cavity is tuned over a 200kHz range by a mechanical tuner which varies the gap capacitance. Broadband HOM damping is provided by two orthogonal loop coupled high pass filters. Design parameters and commissioning results are presented
The aim of this report is to summarize a study of the propagation of a quench in a HOM damper probe ...
RF cavities are resonators and the key structures in particle accelerators. An electromagnetic field...
Earlier, we reported that a 56 MHz cavity was designed for a luminosity upgrade of the RHIC, and pre...
The accelerating system for RHIC operates at 26.7 MHz (h=342) and must capture the injected beam, ac...
The RHIC Accelerating System runs at 26.7 MHz and is required to have an operating range of 85 kHz d...
A 56 MHz Superconducting RF Cavity operating at 4.4K is being constructed for the RHIC collider. Thi...
The authors present results of Higher Order Modes (HOMs) measurements in the RHIC accelerating (28 M...
The RHIC Accelerating System runs at 26.7 MHz and is required to have an operating range of 85 kHz d...
A system of ten rf cavities operating at 197 MHz will provide longitudinal focusing during beam stor...
A 56 MHz Superconducting RF cavity is under development for the Relativistic Heavy Ion Collider (RHI...
As part of the preparation of the PS as injector for LHC, two new 80 MHz cavities have been designed...
This report addresses the cryogenic and cryostat system for the 56 MHZ SRF Cavit
The heavy ion beam at RHIC undergoes strong quadrupole oscillations just after it crosses transition...
A fundamental power coupler (FPC) is designed to provide fast tuning the 56MHz SRF cavity in RHIC. T...
The purpose of RF system in RHIC is to capture injected bunches, accelerate them to the top energy, ...
The aim of this report is to summarize a study of the propagation of a quench in a HOM damper probe ...
RF cavities are resonators and the key structures in particle accelerators. An electromagnetic field...
Earlier, we reported that a 56 MHz cavity was designed for a luminosity upgrade of the RHIC, and pre...
The accelerating system for RHIC operates at 26.7 MHz (h=342) and must capture the injected beam, ac...
The RHIC Accelerating System runs at 26.7 MHz and is required to have an operating range of 85 kHz d...
A 56 MHz Superconducting RF Cavity operating at 4.4K is being constructed for the RHIC collider. Thi...
The authors present results of Higher Order Modes (HOMs) measurements in the RHIC accelerating (28 M...
The RHIC Accelerating System runs at 26.7 MHz and is required to have an operating range of 85 kHz d...
A system of ten rf cavities operating at 197 MHz will provide longitudinal focusing during beam stor...
A 56 MHz Superconducting RF cavity is under development for the Relativistic Heavy Ion Collider (RHI...
As part of the preparation of the PS as injector for LHC, two new 80 MHz cavities have been designed...
This report addresses the cryogenic and cryostat system for the 56 MHZ SRF Cavit
The heavy ion beam at RHIC undergoes strong quadrupole oscillations just after it crosses transition...
A fundamental power coupler (FPC) is designed to provide fast tuning the 56MHz SRF cavity in RHIC. T...
The purpose of RF system in RHIC is to capture injected bunches, accelerate them to the top energy, ...
The aim of this report is to summarize a study of the propagation of a quench in a HOM damper probe ...
RF cavities are resonators and the key structures in particle accelerators. An electromagnetic field...
Earlier, we reported that a 56 MHz cavity was designed for a luminosity upgrade of the RHIC, and pre...