![]() But it means that CERN can now put substantial effort into designing the collider and researching its feasibility, and push to the backburner alternative designs for follow-up colliders to the LHC, such as a linear electron–positron collider, or one that would accelerate muons. The approval is not yet a final go-ahead. ![]() The design - to be built in an underground tunnel near CERN’s location near Geneva, Switzerland - will enable physicists to study the properties of the Higgs boson and, later, to host an even more-powerful machine that will collide protons and will last well into the second half of the century. The new machine would be colliding electrons with their antimatter partners, positrons, by the middle of the century. Europe’s pre-eminent particle-physics organization will need global help to fund the project, which is expected to cost at least €21 billion (US$24 billion) and would be a follow-up to the lab’s famed Large Hadron Collider (LHC). The decision was unanimously endorsed by the CERN Council, the organization’s governing body, on 19 June, following the plan’s approval by an independent panel in March. Credit: Polar MediaĬERN has taken a major step towards building a 100-kilometre circular supercollider to push the frontier of high-energy physics. General-purpose test beam lines provide beams of electrons, muons and hadrons in a very wide energy range for testing the detectors used in the LHC and in its major upgrade, the High-Luminosity LHC, as well as in future colliders and in neutrino experiments.A proposed 100-kilometre particle collider at CERN would smash together electrons and positrons, and, later, protons (artist’s impression). Moreover, CERN offers unique infrastructures for the development of the most sensitive particle detectors in the world, including the four main LHC detectors – ATLAS, CMS, ALICE and LHCb. The 60-year history of CERN is marked with impressive achievements in the construction and operation of powerful linear and circular accelerators. CERN operates a unique range of particle accelerators that enable research into the fundamental particles and laws of the Universe, including the Large Hadron Collider (LHC), the largest scientific instrument on Earth. Sitting astride the Franco-Swiss border near Geneva, it was one of Europe’s first joint ventures and now has 22 member states. CET and is open to the public.įounded in 1954, CERN is the European laboratory for particle physics. The online kick-off meeting for this second phase will take place on 1 February from 9 a.m. The grant consolidates the recognition of European research infrastructures as innovation drivers. ATTRACT has just received its second-round grant from the European Commission, as a continuation of ATTRACT Phase l. It aims to streamline the pathway of innovation from fundamental research to society”, said Pablo Garcia Tello, coordinator for European-funded projects at CERN.ĭuring Phase l, ATTRACT was granted €17 million to fund 170 breakthrough projects for 12 months, enabling them to implement and develop their research idea before presenting their work at the Final ATTRACT Conference in September 2020. “The ATTRACT project proposes a change in mindset on how new technologies can be funded. The Falling Walls conference featured CERN during its online 2020 event, hosting a debate entitled “Does CERN need another supercollider?” and giving a prize to the European-funded ATTRACT project.įalling Walls, an organisation based in Berlin, is known for its highly produced and well-attended annual conference, which covers “the next walls to fall in science and society”.įalling Walls bestowed a prize on the ATTRACT project.
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