Add to ORKGThe present global orbit feedback system for SPEAR can adjust the electron beam position with a cycle time of 5 s. In addition, 50 Hz analog local servos stabilize the vertical photon beam position at monitors situated in the ten SSRL beamlines. The global and local systems will soon be merged into a single unified system operating from a dedicated DSP board. The goal is to acquire orbits, process the data, and correct beam position in a 1-2 ms interval to achieve a 30-50 Hz closed-loop bandwidth.
We are implementing digital orbit feedback systems to replace the analog ones in both the VUV and th...
Following the installation and commissioning of a new high resolution steering magnet control system...
A number of fast local orbit feedback stations are being sequentially installed at ELETTRA to improv...
The present global orbit feedback system for SPEAR can adjust the electron beam position with a cycl...
The new fast orbit feedback system (FOFB) is being commissioned at the SPEAR3 light source. The syst...
A unified global and local closed-orbit feedback system has been implemented at the Advanced Photon ...
A global feedback system designed to correct and control the closed orbit position drifts in the SRS...
Experiments at the SLS (Swiss Light Source) require a highly stabilized photon beam spot with high b...
Includes bibliographical references (leaf [83])The Advanced Photon Source third generation synchrotr...
A real-time orbit feedback system has been implemented at the Advanced Photon Source in order to mee...
The digital global feedback system (DGFB) was implemented to suppress orbit drift, low frequency bea...
The orbit feedback system of the TLS has been deployed for a decade and continuously upgraded as tec...
Precise orbit control is one of the crucial features for sta-ble operation of storage rings. At SLS ...
The electron beam in the Diamond Synchrotron Light Source is stabilised in two planes using the Fast...
The APS Real-Time Orbit Feedback System is designed to stabilize the orbit of the stored positron be...
We are implementing digital orbit feedback systems to replace the analog ones in both the VUV and th...
Following the installation and commissioning of a new high resolution steering magnet control system...
A number of fast local orbit feedback stations are being sequentially installed at ELETTRA to improv...
The present global orbit feedback system for SPEAR can adjust the electron beam position with a cycl...
The new fast orbit feedback system (FOFB) is being commissioned at the SPEAR3 light source. The syst...
A unified global and local closed-orbit feedback system has been implemented at the Advanced Photon ...
A global feedback system designed to correct and control the closed orbit position drifts in the SRS...
Experiments at the SLS (Swiss Light Source) require a highly stabilized photon beam spot with high b...
Includes bibliographical references (leaf [83])The Advanced Photon Source third generation synchrotr...
A real-time orbit feedback system has been implemented at the Advanced Photon Source in order to mee...
The digital global feedback system (DGFB) was implemented to suppress orbit drift, low frequency bea...
The orbit feedback system of the TLS has been deployed for a decade and continuously upgraded as tec...
Precise orbit control is one of the crucial features for sta-ble operation of storage rings. At SLS ...
The electron beam in the Diamond Synchrotron Light Source is stabilised in two planes using the Fast...
The APS Real-Time Orbit Feedback System is designed to stabilize the orbit of the stored positron be...
We are implementing digital orbit feedback systems to replace the analog ones in both the VUV and th...
Following the installation and commissioning of a new high resolution steering magnet control system...
A number of fast local orbit feedback stations are being sequentially installed at ELETTRA to improv...