Add to ORKGThird generation synchrotron light sources produce high brilliance x-Ray beams. Vibrations may degrade the electron beam centre of mass stability, hence dramatically reducing the brilliance. It is therefore necessary to carefully measure and survey the vibrations existing on site, to investigate the vibration responses of mechanical components of the accelerator machine and beamlines, and then to set up damping techniques for critical frequencies. 1
In the vast majority of accelerator applications, ground vibration amplitudes are well below tolerab...
Together with the reduction of driving terms of third-order resonances, the minimisation of tune shi...
Numerous third-generation light sources are now in a mature phase of operation, and several new sour...
To improve electron beam stability and x-ray beam stability, the micron-order of magnitude vibration...
The Advanced Photon Source (APS), a new synchrotron radiation facility being built at Argonne Nation...
Shanghai Synchrotron Radiation Facility (SSRF) is a 3rd generation light source which is now under c...
The Advanced Photon Source at Argonne National Laboratory is a facility signed to produce extremely ...
To further improve the ESRF machine performance in terms of stability and emittance, the micron-orde...
The Canadian Light Source (CLS) is a third generation synchrotron that will be capable of generating...
The new 735m long linear accelerator “SwissFEL” at the Paul Scherrer Institute (PSI) in Würenlingen ...
Synchrotron radiation emitted by circulating electron beams is a powerful and versatile source for p...
This paper describes the results of local beam position feedback experiments conducted on the ESRF s...
This paper describes the results of local beam position feedback experiments conducted on the ESRF s...
The operation of third generation synchrotron light sources at design target goals raises a number o...
MAX-lab is a national laboratory operated jointly by the Swedish Research Council and Lund Universit...
In the vast majority of accelerator applications, ground vibration amplitudes are well below tolerab...
Together with the reduction of driving terms of third-order resonances, the minimisation of tune shi...
Numerous third-generation light sources are now in a mature phase of operation, and several new sour...
To improve electron beam stability and x-ray beam stability, the micron-order of magnitude vibration...
The Advanced Photon Source (APS), a new synchrotron radiation facility being built at Argonne Nation...
Shanghai Synchrotron Radiation Facility (SSRF) is a 3rd generation light source which is now under c...
The Advanced Photon Source at Argonne National Laboratory is a facility signed to produce extremely ...
To further improve the ESRF machine performance in terms of stability and emittance, the micron-orde...
The Canadian Light Source (CLS) is a third generation synchrotron that will be capable of generating...
The new 735m long linear accelerator “SwissFEL” at the Paul Scherrer Institute (PSI) in Würenlingen ...
Synchrotron radiation emitted by circulating electron beams is a powerful and versatile source for p...
This paper describes the results of local beam position feedback experiments conducted on the ESRF s...
This paper describes the results of local beam position feedback experiments conducted on the ESRF s...
The operation of third generation synchrotron light sources at design target goals raises a number o...
MAX-lab is a national laboratory operated jointly by the Swedish Research Council and Lund Universit...
In the vast majority of accelerator applications, ground vibration amplitudes are well below tolerab...
Together with the reduction of driving terms of third-order resonances, the minimisation of tune shi...
Numerous third-generation light sources are now in a mature phase of operation, and several new sour...