quark gluon plasmaの例文

• The pioneering work on Quark Gluon Plasma is already well recognised internationally.
• He has made significant contribution to the discovery of the Quark Gluon Plasma ( QGP ) in the laboratory.
• Of course Quark Gluon Plasma is much much hotter than an atomic bomb and there are several million collisions per second.
• Searches for Quark Gluon plasma and a deeper understanding of the QCD started at CERN and Brookhaven with lighter ions in the 1980s.
• The suppression of charmonium states was also observed in proton-lead collisions at the LHC, in which Quark Gluon Plasma is not formed.
• When the QCD matter undergoes a phase crossover into quark gluon plasma, the energy loss in the medium grows significantly, effectively quenching the outgoing jet.
• I was reading article about Quark Gluon Plasma and I noted that this experiments indicates that the temperatures in this phenomenons reachs around 4 trillion degrees celsius.
• By applying the AdS / CFT correspondence, S?n and his collaborators were able to describe the quark gluon plasma in terms of black holes in five-dimensional spacetime.
• The upgraded ITS will open new channels in the study of the Quark Gluon Plasma formed at LHC which are necessary in order to understand the dynamics of this condensed phase of the QCD.
• She is a leading member of the collaboration that built and operates the PHENIX detector, one of the large detectors currently operating at the Relativistic Heavy Ion Collider at Brookhaven National Laboratory, and was involved in the discovery of the quark gluon plasma and its strongly coupled, liquid-like behavior.
• :I do not think that is a big problem, Quark Gluon Plasma is created when two heavy atomic nucleus collide, the volume of the plasma should be of the same order of magnitude as the volume of a nucleus 10 fm = 10 * 10 ^-15 m = 0.00 000 000 001 mm.
• Two types of quarkonia have been extensively studied : charmonia, which consist of a charm quark and an anti-charm, and bottomonia made of a bottom and an anti-bottom quark . Charm and anticharm quarks in the presence of the Quark Gluon Plasma, in which there are many free colour charges, are not able to see each other any more and therefore they cannot form bound states.
• Then around " T " = 150 MeV there is a crossover to the quark gluon plasma : thermal fluctuations break up the pions, and we find a gas of quarks, antiquarks, and gluons, as well as lighter particles such as photons, electrons, positrons, etc . Following this path corresponds to travelling far back in time ( so to say ), to the state of the universe shortly after the big bang ( where there was a very tiny preference for quarks over antiquarks ).