Add to ORKGIn version 6 of the LHC lattice the pairs of standard arc and additional trim quadrupoles in the dispersion suppressor (DS) are replaced by individual units. The individual powering of these units provides additional flexibility in the DS. As a result of this modification the quadrupole positions and maximum strength changed, requiring an update of the optics in the insertions. We took advantage of this redesign and incorporated new requirements on the injection optics leading to different phase advances over the IR as compared to version 5 of the LHC lattice. The optics is calculated for both rings and its flexibility investigated. The presented solutions are antisymmetric with respect to the IP (alpha* = 0.0), obey the injection constrain...
The Large Hadron Collider (LHC) upgrade, which aims at reaching significantly higher luminosities at ...
The upgrade of the LHC collimation system in view of the High-Luminosity upgrade of the Large Hadron...
Beam-induced energy deposition in the LHC high lu-minosity interaction region (IR) components due to...
In version 6 of the LHC lattice the pairs of standard arc and additional trim quadrupoles in the dis...
The geometrical acceptance in the interaction regions of the LHC must be large enough to accommodate...
The main guidelines of the LHC IR upgrade Phase I project are the development of wider aperture (120...
The goal of the LHC Insertion (IR) Upgrade Phase-I is to enable a reliable operation of the machine ...
The geometrical acceptance in the interaction regions of the LHC must be large enough to accommodate...
The LHC requires very precise matching of transfer line and LHC optics to minimise emittance blow-up...
To correct more efficiently the arc dispersion, the exact antisymmetry of the LHC optics is now brok...
The paper presents the results of the study of different optics configurations of the long straight ...
Abstract An excellent match between the SPS, the several kilometres long transfer lines and the LHC ...
To optimize the use of space, the LHC insertions combine dispersion matching (arc and ring separatio...
An excellent match between the SPS, the several kilometres long transfer lines and the LHC will be r...
In order to further probe our understanding of the structure of matter and the universe, physicists ...
The Large Hadron Collider (LHC) upgrade, which aims at reaching significantly higher luminosities at ...
The upgrade of the LHC collimation system in view of the High-Luminosity upgrade of the Large Hadron...
Beam-induced energy deposition in the LHC high lu-minosity interaction region (IR) components due to...
In version 6 of the LHC lattice the pairs of standard arc and additional trim quadrupoles in the dis...
The geometrical acceptance in the interaction regions of the LHC must be large enough to accommodate...
The main guidelines of the LHC IR upgrade Phase I project are the development of wider aperture (120...
The goal of the LHC Insertion (IR) Upgrade Phase-I is to enable a reliable operation of the machine ...
The geometrical acceptance in the interaction regions of the LHC must be large enough to accommodate...
The LHC requires very precise matching of transfer line and LHC optics to minimise emittance blow-up...
To correct more efficiently the arc dispersion, the exact antisymmetry of the LHC optics is now brok...
The paper presents the results of the study of different optics configurations of the long straight ...
Abstract An excellent match between the SPS, the several kilometres long transfer lines and the LHC ...
To optimize the use of space, the LHC insertions combine dispersion matching (arc and ring separatio...
An excellent match between the SPS, the several kilometres long transfer lines and the LHC will be r...
In order to further probe our understanding of the structure of matter and the universe, physicists ...
The Large Hadron Collider (LHC) upgrade, which aims at reaching significantly higher luminosities at ...
The upgrade of the LHC collimation system in view of the High-Luminosity upgrade of the Large Hadron...
Beam-induced energy deposition in the LHC high lu-minosity interaction region (IR) components due to...