Add to ORKGDuring the winter 2016/2017 the LHC will undertake a period of maintenance, the so-called Extended Year End Stop (EYETS). Many activities will be performed during this period to solve issues as well as to increase the LHC performance. One of the main activities is the exchange of a weak magnet in sector 12. This involves warm up of the sector, magnet exchange, cool down and subsequent recommissioning, including magnet retraining. The delicate phase of recovery from the long stop and recommissioning the LHC after all interventions will be discussed
The shutdown originally planned for 2011-13 is the first opportunity since physics operation started...
The Large Hadron Collider (LHC) contains eight main dipole circuits, each of them with 154 dipole ma...
The Large Hadron Collider (LHC) at CERN (Geneva) was commissioned and operated in the years 2009-201...
As any other accelerator, the LHC has to undertake periods of stop for maintenance. Five technical s...
This document summarises the LHC machine availability for the period of Restart to Technical Stop 1 ...
The incident in 3-4 sector has affected some 50 main LHC magnets. Such a scenario was never consider...
The Large Hadron Collider (LHC) has been delivering data to the physics experiments since 2009. It f...
The LHC and its Injectors are submitted to an overall lifecycle of three to four years of physics de...
The incident in 3-4 sector has affected some 50 LHC main magnets, going beyond expectation. Our rese...
Several measures implemented in the 2016-17 Extended Year End Technical Stop (EYETS) should allow th...
After the High Luminosity (HL) upgrade in 2024-2026, the LHC is anticipated to increase its integrat...
During the LHC operation in 2010 and 2011, the cryogenic system has achieved an availability level f...
This document summarises the LHC machine availability for the period of Restart to Technical Stop 1 ...
Crossing the Franco-Swiss border, the Large Hadron Collider (LHC), designed to collide 7 TeV proton ...
In 2008 all the LHC main dipole circuits were trained to 5 TeV, two sectors to 6 TeV, and one sector...
The shutdown originally planned for 2011-13 is the first opportunity since physics operation started...
The Large Hadron Collider (LHC) contains eight main dipole circuits, each of them with 154 dipole ma...
The Large Hadron Collider (LHC) at CERN (Geneva) was commissioned and operated in the years 2009-201...
As any other accelerator, the LHC has to undertake periods of stop for maintenance. Five technical s...
This document summarises the LHC machine availability for the period of Restart to Technical Stop 1 ...
The incident in 3-4 sector has affected some 50 main LHC magnets. Such a scenario was never consider...
The Large Hadron Collider (LHC) has been delivering data to the physics experiments since 2009. It f...
The LHC and its Injectors are submitted to an overall lifecycle of three to four years of physics de...
The incident in 3-4 sector has affected some 50 LHC main magnets, going beyond expectation. Our rese...
Several measures implemented in the 2016-17 Extended Year End Technical Stop (EYETS) should allow th...
After the High Luminosity (HL) upgrade in 2024-2026, the LHC is anticipated to increase its integrat...
During the LHC operation in 2010 and 2011, the cryogenic system has achieved an availability level f...
This document summarises the LHC machine availability for the period of Restart to Technical Stop 1 ...
Crossing the Franco-Swiss border, the Large Hadron Collider (LHC), designed to collide 7 TeV proton ...
In 2008 all the LHC main dipole circuits were trained to 5 TeV, two sectors to 6 TeV, and one sector...
The shutdown originally planned for 2011-13 is the first opportunity since physics operation started...
The Large Hadron Collider (LHC) contains eight main dipole circuits, each of them with 154 dipole ma...
The Large Hadron Collider (LHC) at CERN (Geneva) was commissioned and operated in the years 2009-201...