Add to ORKGThe LHC beam dumping system must protect the LHC machine from damage by reliably and safely extracting and absorbing the circulating beams when requested. Two sets of 15 extraction kicker magnets form the main active part of this system. They have been produced, tested and calibrated by measuring the integrated magnetic field and the magnet current at different beam energies. The calibration data have been analysed, and the critical parameters are compared with the specifications. Implications for the configuration, control and operation of the beam dumping system are discussed
The two LHC injection kicker magnet systems must produce a kick of 1.3 T.m with a flattop duration v...
LHC operation is approaching its nominal operating goals and several upgrades are also being prepare...
The two LHC injection kicker magnet systems must each produce a kick of 1.2 T.m with a flattop durat...
The beam dumping system of the Large Hadron Collider (LHC) provides a loss-free fast extraction of t...
The LHC Beam Dumping System (LBDS) of the Large Hadron Collider (LHC), presently under construction ...
The LHC beam dump system is one of the most critical systems concerning machine protection and safe ...
CERN's Large Hadron Collider (LHC) is a proton collider with injection energy of 450 GeV and collisi...
An unprecedented amount of energy will be stored in the circulating beams of LHC. The loss of even a...
In order to ensure the required level of reliability of the LHC beam dump system a series of post-op...
The LHC beam dumping system must protect the LHC machine from damage by reliably and safely extracti...
The LHC beam dump system was commissioned with beam in 2009. This paper describes the operational ex...
The LHC beam dumping system must protect the LHC machine from damage by reliably and safely extracti...
AbstractThe energy stored in the nominal LHC beams is two times 362MJ, 100 times the energy of the T...
Proton and ion beams are injected into LHC at 450 GeV by two kicker magnet systems, producing magnet...
For nominal beam parameters at 7 TeV/c each of the two LHC proton beams has a stored energy of 362 M...
The two LHC injection kicker magnet systems must produce a kick of 1.3 T.m with a flattop duration v...
LHC operation is approaching its nominal operating goals and several upgrades are also being prepare...
The two LHC injection kicker magnet systems must each produce a kick of 1.2 T.m with a flattop durat...
The beam dumping system of the Large Hadron Collider (LHC) provides a loss-free fast extraction of t...
The LHC Beam Dumping System (LBDS) of the Large Hadron Collider (LHC), presently under construction ...
The LHC beam dump system is one of the most critical systems concerning machine protection and safe ...
CERN's Large Hadron Collider (LHC) is a proton collider with injection energy of 450 GeV and collisi...
An unprecedented amount of energy will be stored in the circulating beams of LHC. The loss of even a...
In order to ensure the required level of reliability of the LHC beam dump system a series of post-op...
The LHC beam dumping system must protect the LHC machine from damage by reliably and safely extracti...
The LHC beam dump system was commissioned with beam in 2009. This paper describes the operational ex...
The LHC beam dumping system must protect the LHC machine from damage by reliably and safely extracti...
AbstractThe energy stored in the nominal LHC beams is two times 362MJ, 100 times the energy of the T...
Proton and ion beams are injected into LHC at 450 GeV by two kicker magnet systems, producing magnet...
For nominal beam parameters at 7 TeV/c each of the two LHC proton beams has a stored energy of 362 M...
The two LHC injection kicker magnet systems must produce a kick of 1.3 T.m with a flattop duration v...
LHC operation is approaching its nominal operating goals and several upgrades are also being prepare...
The two LHC injection kicker magnet systems must each produce a kick of 1.2 T.m with a flattop durat...