Add to ORKGConsidering a generic double-ring collider, we discuss the matching from an antisymmetric optics in the arcs to a symmetric optics in the interaction region (IR) by means of an antisymmetric matching section. As an example, we present an application to the LHC, for which a symmetric IR with extremely flat beams is under stud
We review recent work on the LHC IR upgrades by the US-LARP collaboration. There are several optics ...
The Phase 1 LHC Interaction Region (IR) upgrade aims at increasing the machine luminosity essentiall...
In order to further expand our knowledge of the structure of matter and the workings of our universe...
Considering a generic double-ring collider, we discuss the matching from an antisymmetric optics in ...
Considering a generic double-ring collider, we discuss the matching from an antisymmetric optics in ...
We report the status of the optics design for a local chromatic correction with extremely flat beams...
To correct more efficiently the arc dispersion, the exact antisymmetry of the LHC optics is now brok...
The PEP-II interaction region is designed to accommodate asymmetric beam energies, head-on collision...
To optimize the use of space, the LHC insertions combine dispersion matching (arc and ring separatio...
In version 6 of the LHC lattice the pairs of standard arc and additional trim quadrupoles in the dis...
The geometrical optical aberrations dominate the dynamic aperture in LHC and were therefore much stu...
We consider the different options proposed for the LHC IR upgrade. The two main categories: quadrupo...
We present a new symmetry-based concept for an achromatic low-beta collider interaction region desig...
A strategy for optimizing the intersection region of LHC is presented. The quadrupole triplet is mov...
The geometrical acceptance in the interaction regions of the LHC must be large enough to accommodate...
We review recent work on the LHC IR upgrades by the US-LARP collaboration. There are several optics ...
The Phase 1 LHC Interaction Region (IR) upgrade aims at increasing the machine luminosity essentiall...
In order to further expand our knowledge of the structure of matter and the workings of our universe...
Considering a generic double-ring collider, we discuss the matching from an antisymmetric optics in ...
Considering a generic double-ring collider, we discuss the matching from an antisymmetric optics in ...
We report the status of the optics design for a local chromatic correction with extremely flat beams...
To correct more efficiently the arc dispersion, the exact antisymmetry of the LHC optics is now brok...
The PEP-II interaction region is designed to accommodate asymmetric beam energies, head-on collision...
To optimize the use of space, the LHC insertions combine dispersion matching (arc and ring separatio...
In version 6 of the LHC lattice the pairs of standard arc and additional trim quadrupoles in the dis...
The geometrical optical aberrations dominate the dynamic aperture in LHC and were therefore much stu...
We consider the different options proposed for the LHC IR upgrade. The two main categories: quadrupo...
We present a new symmetry-based concept for an achromatic low-beta collider interaction region desig...
A strategy for optimizing the intersection region of LHC is presented. The quadrupole triplet is mov...
The geometrical acceptance in the interaction regions of the LHC must be large enough to accommodate...
We review recent work on the LHC IR upgrades by the US-LARP collaboration. There are several optics ...
The Phase 1 LHC Interaction Region (IR) upgrade aims at increasing the machine luminosity essentiall...
In order to further expand our knowledge of the structure of matter and the workings of our universe...