In the 3 GeV ring of MAX IV light source in Lund, Sweden, the intense synchrotron radiation (SR) distributed along the ring generates important thermal and vacuum effects. By means of a Monte Carlo simulation package, which is currently developed at CERN, both thermal and vacuum effects are quantitatively analysed, in particular near the crotch absorbers and the surrounding NEG-coated vacuum chambers. Using SynRad+, the beam trajectory of the upstream bending magnet is calculated; SR photons are generated and traced through the geometry until their absorption. This allows an analysis of the incident power density on the absorber, and to calculate the photon induced outgassing. The results are imported to Molflow+, a Monte Carlo vacuum simul...
At high energies, beam-induced synchrotron radiation is an important source of heating, beam-related...
At the synchrotron radiation facility MAX, the rest gas pressure in the storage rings is dominated b...
The design of vacuum systems for modern third generation synchrotron light sources is by no means st...
In the MAX IV light-source in Lund, Sweden, the intense synchrotron radiation (SR) distributed along...
A new module, SYNRAD, has been added to the MOLFLOW [l] software package, allowing the Montecarlo (M...
This report summarizes vacuum system related calculations and simulations that are performed with re...
We report on calculations of electron production by synchrotron radiation absorbed in the vacuum cha...
An accurate calculation of the synchrotron radiation flux within the vacuum chamber of an accelerato...
In circular accelerators at energies in the order of TeV, synchrotron radiation (SR) is very high, e...
In previous work it was shown that at high proton-beam energies, synchrotron radiation is an importa...
Molflow+ and Synrad+ are Monte Carlo simulation tools for ultra-high vacuum and synchrotron radiatio...
In circular particle accelerators and storage rings with relativistic beams of particles, e.g. elect...
In previous work it was shown that at high proton-beam energies, synchrotron radiation is an importa...
At high proton-beam energies, beam-induced synchrotron radiation is an important source of heating, ...
At high energies, beam-induced synchrotron radiation is an important source of heating, beam-related...
At high energies, beam-induced synchrotron radiation is an important source of heating, beam-related...
At the synchrotron radiation facility MAX, the rest gas pressure in the storage rings is dominated b...
The design of vacuum systems for modern third generation synchrotron light sources is by no means st...
In the MAX IV light-source in Lund, Sweden, the intense synchrotron radiation (SR) distributed along...
A new module, SYNRAD, has been added to the MOLFLOW [l] software package, allowing the Montecarlo (M...
This report summarizes vacuum system related calculations and simulations that are performed with re...
We report on calculations of electron production by synchrotron radiation absorbed in the vacuum cha...
An accurate calculation of the synchrotron radiation flux within the vacuum chamber of an accelerato...
In circular accelerators at energies in the order of TeV, synchrotron radiation (SR) is very high, e...
In previous work it was shown that at high proton-beam energies, synchrotron radiation is an importa...
Molflow+ and Synrad+ are Monte Carlo simulation tools for ultra-high vacuum and synchrotron radiatio...
In circular particle accelerators and storage rings with relativistic beams of particles, e.g. elect...
In previous work it was shown that at high proton-beam energies, synchrotron radiation is an importa...
At high proton-beam energies, beam-induced synchrotron radiation is an important source of heating, ...
At high energies, beam-induced synchrotron radiation is an important source of heating, beam-related...
At high energies, beam-induced synchrotron radiation is an important source of heating, beam-related...
At the synchrotron radiation facility MAX, the rest gas pressure in the storage rings is dominated b...
The design of vacuum systems for modern third generation synchrotron light sources is by no means st...