Add to ORKGEffects arising from heavy beam loading in the Stanford Linear Collider (SLC) Damping Rings are described. The stability of the rf system and particle beam is studied using a numerical model of the beam cavity interaction with multiple feedback loops. Nonlinearities of the power source are also considered. The effects of beam-induced transients and intensity jitter on the rf system are analyzed and used to determine stability tolerances for both high current and low current pulses. I
The authors report on the ion-related beam behavior in the electron damping ring during unusually po...
We report on impedance calculations and single-bunch and multi-bunch instabilities in the NLC dampin...
An open-loop state space model of all the major low-level rf feedback control loops is derived. The ...
Effects arising from heavy beam loading in the Stanford Linear Collider (SLC) Damping Rings are desc...
intensity in the damping rings was raised from 3.5 · 1010 to greater than 4 · 1010 particles per bun...
A longitudinal single-bunch instability[1] in the damping rings at the Stanford Linear Collider (SLC...
Longitudinal coupled bunch instabilities which are being observed in the SLC Damping Rings present a...
In 1992 a longitudinal, single bunch instability was observed in the SLC damping rings. Beyond a thr...
Longitudinal single and multibunch instabilities in the damping ring have to be avoided to guarantee...
I. INTRODUCTION this instability and the proposed remedies. Longitudinal coupled bunch instabilities...
We report on impedance calculations and single-bunch and multi-bunch instabilities in the NLC dampin...
We report progress on the design of the RF systems for the Next LinearCollider (NLC) Damping Rings [...
We report progress on the design of the RF systems for the Next LinearCollider (NLC) Damping Rings [...
In the Stanford Linear Collider (SLC) each beam, after leaving a damping ring, is compressed in the ...
The requirements of RF acceleration in the SLC Linac to produce high energy beams are complicated by...
The authors report on the ion-related beam behavior in the electron damping ring during unusually po...
We report on impedance calculations and single-bunch and multi-bunch instabilities in the NLC dampin...
An open-loop state space model of all the major low-level rf feedback control loops is derived. The ...
Effects arising from heavy beam loading in the Stanford Linear Collider (SLC) Damping Rings are desc...
intensity in the damping rings was raised from 3.5 · 1010 to greater than 4 · 1010 particles per bun...
A longitudinal single-bunch instability[1] in the damping rings at the Stanford Linear Collider (SLC...
Longitudinal coupled bunch instabilities which are being observed in the SLC Damping Rings present a...
In 1992 a longitudinal, single bunch instability was observed in the SLC damping rings. Beyond a thr...
Longitudinal single and multibunch instabilities in the damping ring have to be avoided to guarantee...
I. INTRODUCTION this instability and the proposed remedies. Longitudinal coupled bunch instabilities...
We report on impedance calculations and single-bunch and multi-bunch instabilities in the NLC dampin...
We report progress on the design of the RF systems for the Next LinearCollider (NLC) Damping Rings [...
We report progress on the design of the RF systems for the Next LinearCollider (NLC) Damping Rings [...
In the Stanford Linear Collider (SLC) each beam, after leaving a damping ring, is compressed in the ...
The requirements of RF acceleration in the SLC Linac to produce high energy beams are complicated by...
The authors report on the ion-related beam behavior in the electron damping ring during unusually po...
We report on impedance calculations and single-bunch and multi-bunch instabilities in the NLC dampin...
An open-loop state space model of all the major low-level rf feedback control loops is derived. The ...