Add to ORKGThe performance of future accelerators could be limited by electron cloud phenomena and high photodesorption yields. For such a reason, the study of secondary electron and photodesorption yields of vacuum materials is essential. The eradication or mitigation of both secondary electron and molecule desorption could strongly reduce the beam scrubbing time and increase the availability of nominal beams for experiments. Surface modifications with the desired characteristics can be achieved by thin-film coatings, in particular made of amorphous carbon and non-evaporable getters (NEG). In the framework of a new collaboration, several vacuum chambers have been produced, and different coatings on each of them have been applied. The samples were the...
Amorphous carbon (a-C) coatings can reliably be produced with a maximum secondary electron yield (SE...
Non-Evaporable Getter (NEG) coating has become an integral part of particle accelerator vacuum syste...
The knowledge of material properties is an essential stepto design particle accelerators and High En...
In the vacuum science community, it is now commonly accepted that, for the present and next generati...
In order to upgrade the Large Hadron Collider (LHC) performance to be oriented towards higher energi...
Thin film coatings are an effective way for suppressing electron multipacting in particle accelerato...
One of the most important problems to consider in particle accelerators is Synchrotron Radiation (SR...
Electron cloud buildup is a major limitation for high-energy particle accelerators such as the CERN ...
An optimised method to measure the photodesorption yields and sticking probabilities from a room tem...
Studies of the photoelectron yield and photon reflectivity at grazing incidence (11 mrad) from candi...
During the past decade, intense experimental studies on the heavy-ion induced molecular desorption w...
The presence of electron cloud is considered as the most important limitation concerning the quality...
A beam duct coated with NEG materials (Ti, Zr, V), which had been known to have a low secondary elec...
Amorphous carbon (a-C) thin films, produced in different coating configurations by using DC magnetro...
During the past decade, intense experimental studies on the heavy-ion induced molecular desorption w...
Amorphous carbon (a-C) coatings can reliably be produced with a maximum secondary electron yield (SE...
Non-Evaporable Getter (NEG) coating has become an integral part of particle accelerator vacuum syste...
The knowledge of material properties is an essential stepto design particle accelerators and High En...
In the vacuum science community, it is now commonly accepted that, for the present and next generati...
In order to upgrade the Large Hadron Collider (LHC) performance to be oriented towards higher energi...
Thin film coatings are an effective way for suppressing electron multipacting in particle accelerato...
One of the most important problems to consider in particle accelerators is Synchrotron Radiation (SR...
Electron cloud buildup is a major limitation for high-energy particle accelerators such as the CERN ...
An optimised method to measure the photodesorption yields and sticking probabilities from a room tem...
Studies of the photoelectron yield and photon reflectivity at grazing incidence (11 mrad) from candi...
During the past decade, intense experimental studies on the heavy-ion induced molecular desorption w...
The presence of electron cloud is considered as the most important limitation concerning the quality...
A beam duct coated with NEG materials (Ti, Zr, V), which had been known to have a low secondary elec...
Amorphous carbon (a-C) thin films, produced in different coating configurations by using DC magnetro...
During the past decade, intense experimental studies on the heavy-ion induced molecular desorption w...
Amorphous carbon (a-C) coatings can reliably be produced with a maximum secondary electron yield (SE...
Non-Evaporable Getter (NEG) coating has become an integral part of particle accelerator vacuum syste...
The knowledge of material properties is an essential stepto design particle accelerators and High En...