Add to ORKGCurrently Helmholtz Zentrum Berlin prepares the update of the BESSY II ring to BESSY VSR. The updated ring will be capable of simultaneously storing short and long bunches to satisfy the various user demands. For this sake, a cryomodule accommodating two 1.5 GHz and two 1.75 GHz superconducting cavities will be installed into the storage ring. The cavity string will be equipped with warmdielectric absorber rings at both ends. Together with the waveguide dampers of the cavities, these rings damp electromagnetic fields excited by the beam. This contribution presents the estimation of the dielectric losses in the beam pipe absorber rings of the BESSY VSR module. The presented approach is based on determining a broad band impedance ...
At BESSY II due to the continuously increasing interest in short pulse operation, a major upgrade of...
Helmholtz Zentrum Berlin is developing BESSY VSR, a novel upgrade of the BESSY II facility to provi...
The Variable pulse length Storage Ring BESSY VSR upgrade to BESSY II at Helmholtz Zentrum Berlin ...
The four SRF cavities in the BESSY VSR module will be linked by bellows, which will be equipped wit...
The BESSY VSR upgrade of the BESSY II light source represents a novel approach to simultaneously st...
The Variable pulse length Storage Ring BESSY VSR is a superconducting radio frequency SRF upgra...
The BESSY VSR project represents a novel approach of SRF cavity application in the storage rings. T...
The VSR Variable pulse length Storage Ring demo module is a prototype for the superconducting upg...
The BESSY VSR project is a future upgrade of the 3rd generation BESSY II light source. By using the...
BESSY VSR is an upgrade project of the existing storage ring BESSY II to create long and short photo...
Along the last decade, the Helmholtz Zentrum Berlin has accomplished the goal to commission and suc...
Bunch length manipulation is mandatory in modern storage ring light sources and CW SRF provides the...
The BESSY VSR upgrade of the BESSY II light source [1] represents a novel approach to simultaneousl...
Im Rahmen dieser Dissertation wird die Stärke der Multibunch-Instabilität (MBI), die von longitudina...
This contribution focusses on the different types of new or improved electron beam monitors at BESSY...
At BESSY II due to the continuously increasing interest in short pulse operation, a major upgrade of...
Helmholtz Zentrum Berlin is developing BESSY VSR, a novel upgrade of the BESSY II facility to provi...
The Variable pulse length Storage Ring BESSY VSR upgrade to BESSY II at Helmholtz Zentrum Berlin ...
The four SRF cavities in the BESSY VSR module will be linked by bellows, which will be equipped wit...
The BESSY VSR upgrade of the BESSY II light source represents a novel approach to simultaneously st...
The Variable pulse length Storage Ring BESSY VSR is a superconducting radio frequency SRF upgra...
The BESSY VSR project represents a novel approach of SRF cavity application in the storage rings. T...
The VSR Variable pulse length Storage Ring demo module is a prototype for the superconducting upg...
The BESSY VSR project is a future upgrade of the 3rd generation BESSY II light source. By using the...
BESSY VSR is an upgrade project of the existing storage ring BESSY II to create long and short photo...
Along the last decade, the Helmholtz Zentrum Berlin has accomplished the goal to commission and suc...
Bunch length manipulation is mandatory in modern storage ring light sources and CW SRF provides the...
The BESSY VSR upgrade of the BESSY II light source [1] represents a novel approach to simultaneousl...
Im Rahmen dieser Dissertation wird die Stärke der Multibunch-Instabilität (MBI), die von longitudina...
This contribution focusses on the different types of new or improved electron beam monitors at BESSY...
At BESSY II due to the continuously increasing interest in short pulse operation, a major upgrade of...
Helmholtz Zentrum Berlin is developing BESSY VSR, a novel upgrade of the BESSY II facility to provi...
The Variable pulse length Storage Ring BESSY VSR upgrade to BESSY II at Helmholtz Zentrum Berlin ...