On Friday, the European Center for Nuclear Research (CERN) released photos of damage to, CERN's flagship particle accelerator. The particle accelerator was damaged by a liquid helium leak in September, nine days into an experiment to test fundamental theories of physics by colliding beams of protons inside a 17-mile ring.
Picture 1, above, shows two of the most severely broken interconnects, which are between the magnets in LHC sectors three and four. The superconducting magnets, used to direct and focus the proton beams in the experiment, are cooled by liquid helium. An electrical fault caused the liquid helium to leak, resulting in a need for repairs that has put the experiment.
Picture 2 shows damage to the support of one of the quadrupole magnets in sectors three to four. The LHC uses quadrupole magnets to focus opposing proton beams, and dipole magnets to keep the beams on their respective paths.
Picture 3 shows the site of thethat caused the helium leak. A resistive zone developed in one of the electrical connections, creating an electrical arc that punctured one of the helium enclosures around a magnet, according to an analysis by CERN. The warming helium expanded in the vacuum enclosure of the central subsector of the pipe, damaging the vacuum barriers separating the central subsector from the neighboring subsectors.
Tom Espiner of ZDNet UK reported from London.