![]() ![]() A possibility which had also reluctantly been raised by Stephen Hawking in an interview with the press.Ĭollective hysteria is what the scientific organisation feared more than anything else and it is now worried that its highly complex experiments, designed solely for the purpose of studying the basic constituents of matter in an attempt to discover the secret behind the physical laws that govern the Universe, may now be stopped unconditionally. Rumours are already circulating on the Internet with the CERN being referred to as a “black hole factory” and suggesting that the Earth could soon be engulfed by even larger black holes which would project us into parallel universes or cause the imminent opening of the gates of Hell. The media coverage of this news has caused great concern among the population as what once fell within the realm of collective fantasy now seems to have become an unfortunately reality. A mini black hole was probably created during this rather unusual mode of operation of the Large Hadron Collider, literally snapping up the physicist located near the fleetingly-created space/time vortex.Īll this is very bad news for the CERN whose image as the world’s largest and most prestigious scientific laboratory is likely to be tarnished. To dissipate and drive out the residual electron cloud, the accelerator has to be brought to the limit of its maximum permissible capacity to stealthily circulate very high-energy flows of particles. The French scientific information website recently reported a strange case of the unexplained disappearance of a CERN physicist carrying out maintenance work on the beam tubes guiding high-energy particles in the Large Hadron Collider (LHC).Īfter a thorough investigation carried out by the State’s highest atomic safety authorities, forensic investigators have just reached their conclusion: in all likelihood, the physicist was drawn into a quantum black hole, also known as a mini black hole, initiated during the accelerator’s operation in a very specific mode.Īs we already explained in a previous article, clouds of stray electrons may remain trapped on the walls of the Large Hadron Collider in which beams of particles circulate at a speed close to the speed of light. Showing that this novel approach, combining dedicated graph neural network layers (GravNet) and training methods (Object Condensation), can be extended to such challenging tasks while staying within resource constraints represents an important milestone towards future particle reconstruction.A physicist working at the CERN (the European Organization for nuclear research) has been sucked into a mini black hole created by the Large Hadron Collider (LHC) located a few kilometres from Geneva in Switzerland, astride the Franco-Swiss border. He added: "This project has been both a joy and a privilege to work on and is likely to dictate the future direction of research on particle reconstruction by using a more advanced AI-based solution."ĭr Jan Kieseler from the Experimental Physics Department at CERN added: "This is the first single-shot reconstruction of about 1000 particles from and in an unprecedentedly challenging environment with 200 simultaneous interactions each proton-proton collision. He explained: "Limiting the increase of computing resource consumption at large pileups is a necessary step for the success of the HL-LHC physics programme and we are advocating the use of modern machine learning techniques to perform particle reconstruction as a possible solution to this problem." Professor Raheel Nawaz, Pro Vice-Chancellor for Digital Transformation, at Staffordshire University, has supervised the research. The HL-LHC will increase the number of proton-proton interactions in an event from 40 to 200. The High Luminosity Large Hadron Collider (HL-LHC) project aims to crank up the performance of the LHC in order to increase the potential for discoveries after 2029. ![]() The subject of a new academic paper End-to-end multiple-particle reconstruction in high occupancy imaging calorimeters with graph neural networks published in European Physical Journal C, the project has been carried out ahead of the high luminosity upgrade of the Large Hadron Collider. The project is part of the Compact Muon Solenoid (CMS) experiment - one of seven installed experiments which uses detectors to analyse the particles produced by collisions in the accelerator. It is the site of long-running experiments which enable physicists worldwide to learn more about the nature of the Universe. The Large Hadron Collider (LHC) is the most powerful particle accelerator ever built which sits in a tunnel 100 metres underground at CERN, the European Organisation for Nuclear Research, near Geneva in Switzerland.
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