Add to ORKGAt each injection period during RHIC's operation, the beam's frequency sweeps across a wide range, and some of its harmonics will cross the frequency of the 56MHz SRF cavity. To avoid excitation of the cavity at these times, we designed a fundamental damper for the quarter-wave resonator to damp the cavity heavily. The power extracted by the fundamental damper should correspond to the power handling ability of the system at all stages. In this paper, we discuss the power output from the fundamental damper when it is fully extracted, inserted, and any intermediate point. A Fundamental Damper (FD) will greatly reduce the cavity's Q factor to {approx}300 during the acceleration phase of the beam. However, when the beam is at store and the FD i...
The choice of the loaded quality factor (QL) of a superconducting cavity is driven by many factors, ...
An upgrade of the RHIC storage RF system with a superconducting 56 MHz cavity was recently proposed....
This paper describes the recent results of high power test of the damped cavity which has been devel...
Abstract At each injection period during RHIC's operation, the beam's frequency sweeps acr...
A 56 MHz Superconducting RF cavity is under development for the Relativistic Heavy Ion Collider (RHI...
This report summarizes the experimental results done with the fundamental damper for the 56 MHz prot...
A fundamental power coupler (FPC) is designed to provide fast tuning the 56MHz SRF cavity in RHIC. T...
Earlier, we reported that a 56 MHz cavity was designed for a luminosity upgrade of the RHIC, and pre...
The aim of this report is to summarize a study of the propagation of a quench in a HOM damper probe ...
The 56MHz Superconducting RF (SRF) cavity for RHIC places high demands High Order Mode (HOM) damping...
The accelerating system for RHIC operates at 26.7 MHz (h=342) and must capture the injected beam, ac...
A 56 MHz Superconducting RF Cavity operating at 4.4K is being constructed for the RHIC collider. Thi...
In this report, the HOM power dissipated to the load in the 56 MHz RF cavity is calculated. The HOM ...
The 56 MHz SRF Quarter-Wave Resonator (QWR) is designed for RHIC as a storage cavity to improve the ...
The RHIC Accelerating System runs at 26.7 MHz and is required to have an operating range of 85 kHz d...
The choice of the loaded quality factor (QL) of a superconducting cavity is driven by many factors, ...
An upgrade of the RHIC storage RF system with a superconducting 56 MHz cavity was recently proposed....
This paper describes the recent results of high power test of the damped cavity which has been devel...
Abstract At each injection period during RHIC's operation, the beam's frequency sweeps acr...
A 56 MHz Superconducting RF cavity is under development for the Relativistic Heavy Ion Collider (RHI...
This report summarizes the experimental results done with the fundamental damper for the 56 MHz prot...
A fundamental power coupler (FPC) is designed to provide fast tuning the 56MHz SRF cavity in RHIC. T...
Earlier, we reported that a 56 MHz cavity was designed for a luminosity upgrade of the RHIC, and pre...
The aim of this report is to summarize a study of the propagation of a quench in a HOM damper probe ...
The 56MHz Superconducting RF (SRF) cavity for RHIC places high demands High Order Mode (HOM) damping...
The accelerating system for RHIC operates at 26.7 MHz (h=342) and must capture the injected beam, ac...
A 56 MHz Superconducting RF Cavity operating at 4.4K is being constructed for the RHIC collider. Thi...
In this report, the HOM power dissipated to the load in the 56 MHz RF cavity is calculated. The HOM ...
The 56 MHz SRF Quarter-Wave Resonator (QWR) is designed for RHIC as a storage cavity to improve the ...
The RHIC Accelerating System runs at 26.7 MHz and is required to have an operating range of 85 kHz d...
The choice of the loaded quality factor (QL) of a superconducting cavity is driven by many factors, ...
An upgrade of the RHIC storage RF system with a superconducting 56 MHz cavity was recently proposed....
This paper describes the recent results of high power test of the damped cavity which has been devel...