Add to ORKGThe LHC experimental insertions consist of a low-beta triplet, a pair of separation dipoles, and a matching section of four quadrupoles. The superconducting low-beta quadrupoles must accommodate separated beams at injection, provide high field gradients and low multipole errors for colliding beams, and sustain considerable heat load from secondary particles generated in the high luminosity ATLAS and CMS experiments. In the other two proposed experiments, ALICE and LHCb, the separation dipoles and matching sections share the available space with the injection equipment. In this report we present the systems layout of the experimental insertions for the LHC, and review the requirements for the superconducting magnets
The LHC performance depends critically on the low-{beta}, triplets, located on either side of the fo...
A wide range of magnets, both warm and supercon-ducting, will be used in the LHC. In addition to mai...
The High Luminosity LHC (HL-LHC) project aims at accumulating 3000 fb-1 in the years 2023-2035, i.e....
The low-{beta} magnet systems are located in the Large Hadron Collider (LHC) insertion regions aroun...
The installation of the LHC experimental insertions, and particularly the installation of the low-be...
The low-beta magnet systems are located in the Large Hadron Collider (LHC) insertion regions around ...
The electron-positron collider LEP at CEBN is equipped with powerful and compact superconducting qua...
The Large Hadron Collider comprises eight insertions, four of which are dedicated to the LHC experim...
The High Luminosity LHC (HL-LHC) project is aimed at studying and implementing the necessary changes...
Abstract The Large Hadron Collider, due for commissioning in 2005, features a large and complex magn...
As part of the collaboration program between CERN and KEK for the LHC, we have been developing a hig...
A global model of an LHC insertion was prepared for the Arcidosso workshop. Its objective is to eval...
Two 1-m model magnets for the LHC low-beta insertion quadrupole have been developed. One was fabrica...
A quadrupole is being developed for the LHC low- inser-tions by Fermilab and LBNL. A series of short...
The low-β magnet systems are located in the Large Hadron Collider (LHC) insertion regions around the...
The LHC performance depends critically on the low-{beta}, triplets, located on either side of the fo...
A wide range of magnets, both warm and supercon-ducting, will be used in the LHC. In addition to mai...
The High Luminosity LHC (HL-LHC) project aims at accumulating 3000 fb-1 in the years 2023-2035, i.e....
The low-{beta} magnet systems are located in the Large Hadron Collider (LHC) insertion regions aroun...
The installation of the LHC experimental insertions, and particularly the installation of the low-be...
The low-beta magnet systems are located in the Large Hadron Collider (LHC) insertion regions around ...
The electron-positron collider LEP at CEBN is equipped with powerful and compact superconducting qua...
The Large Hadron Collider comprises eight insertions, four of which are dedicated to the LHC experim...
The High Luminosity LHC (HL-LHC) project is aimed at studying and implementing the necessary changes...
Abstract The Large Hadron Collider, due for commissioning in 2005, features a large and complex magn...
As part of the collaboration program between CERN and KEK for the LHC, we have been developing a hig...
A global model of an LHC insertion was prepared for the Arcidosso workshop. Its objective is to eval...
Two 1-m model magnets for the LHC low-beta insertion quadrupole have been developed. One was fabrica...
A quadrupole is being developed for the LHC low- inser-tions by Fermilab and LBNL. A series of short...
The low-β magnet systems are located in the Large Hadron Collider (LHC) insertion regions around the...
The LHC performance depends critically on the low-{beta}, triplets, located on either side of the fo...
A wide range of magnets, both warm and supercon-ducting, will be used in the LHC. In addition to mai...
The High Luminosity LHC (HL-LHC) project aims at accumulating 3000 fb-1 in the years 2023-2035, i.e....