Add to ORKGVariable momentum compaction lattices have been proposed for electron-positron colliders and synchrotron radiation sources to control synchrotron tune and bunch length. To address questions of single particle stability limits, a study has been initiated to change the SPEAR lattice into a variable momentum compaction configuration for experimental investigation of the beam dynamics. In this paper, we describe a model-based method used to transform SPEAR from the injection lattice to the low momentum compaction configuration. Experimental observations of the process are reviewed. I
The key issues to obtain short electron beam bunch in storage ring is to reduce momentum compaction ...
We have studied the potential of SPEAR as a dedi-cated source of synchrotron radiation, based on the...
A weak vertical coupled-bunch instability with oscillation amplitude of the order of a few μm has be...
The VUV storage ring at the National Synchrotron Light Source was used to study the impact of change...
The VUV storage ring at the National Synchrotron Light Source was used to study the impact of change...
operation at the-end of the linear accelerator at Stanford. By the recent discoveries in high energy...
Longitudinal behavior of single bunch electron beam with both signs of negative and positive momentu...
International audienceThe momentum compaction factor of a storage ring can be obtained by measuring ...
In this study, the observation of three simultaneously rotating beams in the SOLEIL storage ring is ...
When the momentum compaction factor is reduced to a small value in order to achieve a very short bun...
SPEAR3 is a third-generation synchrotron light source storage ring. The beam stability requirements ...
A storage ring with tunable momentum compaction has the advantage in achieving different RMS bunch l...
SPEAR3 is a third-generation synchrotron light source storage ring. The beam stability requirements ...
Measurements performed at SPEAR have been discussed and scaling laws for the maximum luminosity and ...
The SPEAR3 storage ring at Stanford Synchrotron Radiation Laboratory has been delivering photon beam...
The key issues to obtain short electron beam bunch in storage ring is to reduce momentum compaction ...
We have studied the potential of SPEAR as a dedi-cated source of synchrotron radiation, based on the...
A weak vertical coupled-bunch instability with oscillation amplitude of the order of a few μm has be...
The VUV storage ring at the National Synchrotron Light Source was used to study the impact of change...
The VUV storage ring at the National Synchrotron Light Source was used to study the impact of change...
operation at the-end of the linear accelerator at Stanford. By the recent discoveries in high energy...
Longitudinal behavior of single bunch electron beam with both signs of negative and positive momentu...
International audienceThe momentum compaction factor of a storage ring can be obtained by measuring ...
In this study, the observation of three simultaneously rotating beams in the SOLEIL storage ring is ...
When the momentum compaction factor is reduced to a small value in order to achieve a very short bun...
SPEAR3 is a third-generation synchrotron light source storage ring. The beam stability requirements ...
A storage ring with tunable momentum compaction has the advantage in achieving different RMS bunch l...
SPEAR3 is a third-generation synchrotron light source storage ring. The beam stability requirements ...
Measurements performed at SPEAR have been discussed and scaling laws for the maximum luminosity and ...
The SPEAR3 storage ring at Stanford Synchrotron Radiation Laboratory has been delivering photon beam...
The key issues to obtain short electron beam bunch in storage ring is to reduce momentum compaction ...
We have studied the potential of SPEAR as a dedi-cated source of synchrotron radiation, based on the...
A weak vertical coupled-bunch instability with oscillation amplitude of the order of a few μm has be...