Add to ORKGDuring the incident of sector 3-4 on September 19th, the temperature of a number of magnets increased over the expected values prior to the circuit failure. A review of the data logged during powering tests on all circuits indicated potential resistive splices in sectors 1-2 and 6-7. Calorimetric and electrical measurements confirmed a high resistance in magnet B16. R1 and B32R6. Systematic measurements have been performed in other cold sectors of the LHC during which the temperature increase and voltage across magnets were acquired at different currents. Cryogenic subsectors on which the temperature increase was abnormal were equipped with precise voltmeters to detect eventual resistive splices in the bus-bars. The findings of the measurem...
During quench tests in 2011 variations in resistance of an order of magnitude were found in the diod...
The incident in the LHC in September 2008 occurred in an interconnection between two magnets of the ...
The interconnections between Large Hadron Collider (LHC) main dipole and quadrupole magnets are made...
The incident of 19 September 2008 at the LHC was caused by a faulty inter-magnet splice of about 200...
Following the QPS review in February 2009, a potential source of problems with the main circuit bus ...
Following the incident on a LHC sector due to an electrical arc on the main dipole bus-bar circuit, ...
The electrical interconnections between the LHC main magnets are made of soldered joints (splices) o...
The interconnections between the LHC main magnets are made of soldered joints (splices) of two super...
After the incident of September 2008, the operational beam energy of the LHC has been set to 3.5 Te...
After the incident of September 2008, the operational beam energy of the LHC has been set to 3.5 TeV...
At each interconnection between LHC main magnets a low-resistance solder joint must be made between ...
Being an integral part of the protection system for the superconducting circuits of the LHC, the dat...
The superconducting magnets of the Large Hadron Collider (LHC) distributed over eight sectors of 3.3...
A 2-m long superconducting model of an LHC Interaction Region quadrupole magnet was wound with stabr...
The splice incident which happened during commissioning of the LHC on the 19th of September 2008 cau...
During quench tests in 2011 variations in resistance of an order of magnitude were found in the diod...
The incident in the LHC in September 2008 occurred in an interconnection between two magnets of the ...
The interconnections between Large Hadron Collider (LHC) main dipole and quadrupole magnets are made...
The incident of 19 September 2008 at the LHC was caused by a faulty inter-magnet splice of about 200...
Following the QPS review in February 2009, a potential source of problems with the main circuit bus ...
Following the incident on a LHC sector due to an electrical arc on the main dipole bus-bar circuit, ...
The electrical interconnections between the LHC main magnets are made of soldered joints (splices) o...
The interconnections between the LHC main magnets are made of soldered joints (splices) of two super...
After the incident of September 2008, the operational beam energy of the LHC has been set to 3.5 Te...
After the incident of September 2008, the operational beam energy of the LHC has been set to 3.5 TeV...
At each interconnection between LHC main magnets a low-resistance solder joint must be made between ...
Being an integral part of the protection system for the superconducting circuits of the LHC, the dat...
The superconducting magnets of the Large Hadron Collider (LHC) distributed over eight sectors of 3.3...
A 2-m long superconducting model of an LHC Interaction Region quadrupole magnet was wound with stabr...
The splice incident which happened during commissioning of the LHC on the 19th of September 2008 cau...
During quench tests in 2011 variations in resistance of an order of magnitude were found in the diod...
The incident in the LHC in September 2008 occurred in an interconnection between two magnets of the ...
The interconnections between Large Hadron Collider (LHC) main dipole and quadrupole magnets are made...