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The LHCb team found the new tetraquark using the particle-hunting technique of looking for an excess of collision events, known as a “bump,” over a smooth background of events. Through the study of this particle, and the hope that we will discover further particles in this class in this future, we will test our theory of how quarks combine which also governs protons and neutrons.” “Studying an extreme system allows scientists to stress-test our theories. This particle is an extreme case - it is an exotic-hadron, containing four quarks rather than the two or three in conventional matter particles, and the first to contain heavy quarks. “Today’s discovery opens another exciting chapter in this scientific book, allowing us to study our theory of matter particles in an extreme case. The University of Manchester and the other ten institutions in the UK play a leading role in the collaboration. The collaboration includes over 1400 members from 19 different countries, a community that works together to advance our scientific goals. Incoming LHCb spokesperson, Professor Chris Parkes from The University of Manchester said: “It’s a great pleasure and honour to take over as LHCb Spokesperson. This particle is an extreme case - it is an exotic-hadron, containing four quarks rather than the two or three in conventional matter particles, and the first to contain heavy quarks.” - Professor Chris Parkes
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“Up until now, the LHCb and other experiments had only observed tetraquarks with two heavy quarks at most and none with more than two quarks of the same type.” “Particles made up of four quarks are already exotic, and the one we have just discovered is the first to be made up of four heavy quarks of the same type, specifically two charm quarks and two charm antiquarks,” says the outgoing spokesperson of the LHCb collaboration, Giovanni Passaleva. Detailed knowledge of the strong interaction is also essential for determining whether new, unexpected processes are a sign of new physics or just standard physics. These particles made of unusual combinations of quarks are an ideal “laboratory” for studying one of the four known fundamental forces of nature, the strong interaction that binds protons, neutrons and the atomic nuclei that make up matter. For decades, however, theorists have predicted the existence of four-quark and five-quark hadrons, which are sometimes described as tetraquarks and pentaquarks and in recent years experiments including the LHCb have confirmed the existence of several of these exotic hadrons. I really need to get this stable (not many time left to the end of my project.).Īre you aware about that kind of trouble on Windows10 ? any hint to get it stable ?