The design report was announced at a ceremony held by the Institute of High Energy Physics (IHEP) in Beijing. "Our next step will focus on the research and development of key technologies and prototypes for the CEPC." "The Conceptual Design Report signifies that we have completed the basic design of the accelerator, detector and civil engineering for the whole project," Professor Gao Yuanning, chair of the CEPC Institutional Board, said in a statement. This 'supercollider' would reach energies far beyond the LHC-the LHC was designed to have a maximum collision energy of 14 TeV, while the SppC would operate with an energy of 70 TeV. The tunnel it sits in could also be used to host a Super proton proton Collider (SppC)-a proposal for which is currently under consideration. It will be a double ring collider, with electron and positron beams circulating in opposite directions in seperate pipes. It will be located in an underground tunnel and consists of a linear accelerator, a damping ring, a booster, transport lines and a collider. Like the LHC, the CEPC is circular in shape. From here, the beams inside the LHC are made to collide at four locations around the accelerator ring, corresponding to the positions of four particle detectors – ATLAS, CMS, ALICE and LHCb.Artist impression of what China's collider will look like. The particles are so tiny that the task of making them collide is akin to firing two needles 10 kilometres apart with such precision that they meet halfway.Īll the controls for the accelerator, its services and technical infrastructure are housed under one roof at the CERN Control Centre. ![]() Just prior to collision, another type of magnet is used to "squeeze" the particles closer together to increase the chances of collisions. These include 1232 dipole magnets, 15 metres in length, which bend the beams, and 392 quadrupole magnets, each 5–7 metres long, which focus the beams. Thousands of magnets of different varieties and sizes are used to direct the beams around the accelerator. Replacing one of the LHC's dipole magnets (Image: Maximilien Brice/CERN) For this reason, much of the accelerator is connected to a distribution system of liquid helium, which cools the magnets, as well as to other supply services. This requires chilling the magnets to ‑271.3☌ – a temperature colder than outer space. The electromagnets are built from coils of special electric cable that operates in a superconducting state, efficiently conducting electricity without resistance or loss of energy. They are guided around the accelerator ring by a strong magnetic field maintained by superconducting electromagnets. ![]() The beams travel in opposite directions in separate beam pipes – two tubes kept at ultrahigh vacuum. Inside the accelerator, two high-energy particle beams travel at close to the speed of light before they are made to collide. The LHC consists of a 27-kilometre ring of superconducting magnets with a number of accelerating structures to boost the energy of the particles along the way. ![]() It first started up on 10 September 2008, and remains the latest addition to CERN’s accelerator complex. The Large Hadron Collider (LHC) is the world’s largest and most powerful particle accelerator.
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