Add to ORKGA model of the RF feedback system for PEP-II has been developed to provide time-domain simulation and frequency-domain analysis of the complete system. The model includes the longitudinal beam dynamics, cavity fundamental resonance, feedback loops, and the nonlinear klystron operating near saturation. Transients from an ion clearing gap and a reference phase modulation from the longitudinal feedback system are also studied. Growth rates are predicted and overall system stability examined
A CW Klystron operating at 476 MHz has been developed jointly by SLAC and Communications and Power I...
A simulation model for the APS storage ring rf system has been developed that includes the effects o...
Heavy beam loading in PEP-II has driven the design of the low level RF system to contain feedback lo...
A model of the beam and RF system for PEP-II has been developed to allow both time-domain simulation...
The RF system of the PEP-II collider uses two fast feedback loops around each klystron and set of ca...
A time domain dynamic modeling and simulation tool for beam-cavity interactions in the Low Energy Ri...
A time domain dynamic modeling and simulation tool for beam-cavity interactions in the Low Energy Ri...
We report the results of a computer simulation of the PEPII transverse feedback (TFB) system includi...
A time domain dynamic modeling and simulation tool for beam-cavity interactions in LER and HER rings...
Lattice changes in the PEP-II high energy ring have made the concept of driving four cavities with a...
We report the results of a computer simulation of the PEP-II transverse feedback (TFB) system includ...
A time domain modeling and simulation tool for beam-cavity interactions in LER and HER rings at PEP ...
Non-linear time-domain simulations have been developed for the Positron-Electron Project (PEP-II) an...
A dynamics simulation model is used to estimate limits of performance of the positron-electron proje...
The paper presents an overview of the design of the RF system for the PEP-II B Factory. An RF statio...
A CW Klystron operating at 476 MHz has been developed jointly by SLAC and Communications and Power I...
A simulation model for the APS storage ring rf system has been developed that includes the effects o...
Heavy beam loading in PEP-II has driven the design of the low level RF system to contain feedback lo...
A model of the beam and RF system for PEP-II has been developed to allow both time-domain simulation...
The RF system of the PEP-II collider uses two fast feedback loops around each klystron and set of ca...
A time domain dynamic modeling and simulation tool for beam-cavity interactions in the Low Energy Ri...
A time domain dynamic modeling and simulation tool for beam-cavity interactions in the Low Energy Ri...
We report the results of a computer simulation of the PEPII transverse feedback (TFB) system includi...
A time domain dynamic modeling and simulation tool for beam-cavity interactions in LER and HER rings...
Lattice changes in the PEP-II high energy ring have made the concept of driving four cavities with a...
We report the results of a computer simulation of the PEP-II transverse feedback (TFB) system includ...
A time domain modeling and simulation tool for beam-cavity interactions in LER and HER rings at PEP ...
Non-linear time-domain simulations have been developed for the Positron-Electron Project (PEP-II) an...
A dynamics simulation model is used to estimate limits of performance of the positron-electron proje...
The paper presents an overview of the design of the RF system for the PEP-II B Factory. An RF statio...
A CW Klystron operating at 476 MHz has been developed jointly by SLAC and Communications and Power I...
A simulation model for the APS storage ring rf system has been developed that includes the effects o...
Heavy beam loading in PEP-II has driven the design of the low level RF system to contain feedback lo...