Add to ORKGIn order to satisfy the tight emittance requirements of LHC, a non-intercepting beam profile monitor is needed in the SPS to follow the beam emittance evolution during the acceleration cycle from 26 to 450 GeV. Beyond 300 GeV, the synchrotron light monitor can be used. To cover the energy range from injection at 26 GeV to 300 GeV, a monitor based on the luminescence of gas injected in the vacuum chamber has been tested and has given interesting results. This monitor could also be used in LHC, where the same problem arises. Design and results are presented for the SPS monitor. 1
A beam profile monitor, from DESY, based on the ionisation of the rest gas, was installed in the SPS...
The monitoring and controlling of the beam transverse emittance is essential to allow high luminosit...
A campaign of studies and measurements has been car-ried out with the aim of establishing the SPS tr...
The SPS luminescence monitor is the first device of this type to be used in a high energy accelerato...
The LHC (large hadron collider) [LHC study group: LHC. The large hadron collider conceptual design; ...
LHC luminosity will reach 10/sup 34/ cm/sup -2/ s/sup -1/ but special runs at 10/sup 28/ cm/sup -2/ ...
A set of different beam instruments have been developed and installed on LHC to provide transverse p...
Measuring the beam transverse emittance is fundamental in every accelerator, in particular for colli...
High luminosity upgrades to the LHC at CERN and future energy frontier machines will require a new g...
A new supersonic gas-jet curtain based beam profile monitor is under development for minimally invas...
The LHC machine presently under construction at CERN will exceed existing super-conducting colliders...
In order to preserve the transverse beam emittance along the acceleration chain it is important that...
During the last two years of SPS operation, investigations were pursued on the ability of the SPS io...
A campaign of studies and measurements has been carried out with the aim of establishing the SPS tra...
The LHC beam luminosity monitor is based on the following principle. The neutrals that originate in ...
A beam profile monitor, from DESY, based on the ionisation of the rest gas, was installed in the SPS...
The monitoring and controlling of the beam transverse emittance is essential to allow high luminosit...
A campaign of studies and measurements has been car-ried out with the aim of establishing the SPS tr...
The SPS luminescence monitor is the first device of this type to be used in a high energy accelerato...
The LHC (large hadron collider) [LHC study group: LHC. The large hadron collider conceptual design; ...
LHC luminosity will reach 10/sup 34/ cm/sup -2/ s/sup -1/ but special runs at 10/sup 28/ cm/sup -2/ ...
A set of different beam instruments have been developed and installed on LHC to provide transverse p...
Measuring the beam transverse emittance is fundamental in every accelerator, in particular for colli...
High luminosity upgrades to the LHC at CERN and future energy frontier machines will require a new g...
A new supersonic gas-jet curtain based beam profile monitor is under development for minimally invas...
The LHC machine presently under construction at CERN will exceed existing super-conducting colliders...
In order to preserve the transverse beam emittance along the acceleration chain it is important that...
During the last two years of SPS operation, investigations were pursued on the ability of the SPS io...
A campaign of studies and measurements has been carried out with the aim of establishing the SPS tra...
The LHC beam luminosity monitor is based on the following principle. The neutrals that originate in ...
A beam profile monitor, from DESY, based on the ionisation of the rest gas, was installed in the SPS...
The monitoring and controlling of the beam transverse emittance is essential to allow high luminosit...
A campaign of studies and measurements has been car-ried out with the aim of establishing the SPS tr...