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Apr. 15, 2021 —A new review examines the three decades of the LHCb experiment, its achievements and future ...
Mar. 23, 2021 —Physicists are part of a team that has announced 'intriguing' results that potentially cannot be explained by our current laws of ...
Aug. 18, 2021 —一个国际研究发现朗的证据g-sought effect in accelerator data. The so-called 'triangle singularity' describes how particles can change their identities by exchanging ...
Aug. 8, 2021 —A new special edition of EPJ Special Topics brings together several papers that detail our understanding of Quark-Gluon Plasma (QGP) and the processes that transformed it into the baryonic matter we ...
Apr. 6, 2023 —Scientists analyzed each element of the neutrino mass matrix belonging to leptons and showed theoretically that the intergenerational mixing of lepton flavors is large. Furthermore, by using the ...
May 27, 2021 —What does quark-gluon plasma -- the hot soup of elementary particles formed a few microseconds after the Big Bang -- have in common with tap water? Scientists say it's the way it ...
Oct. 6, 2021 —A century ago, scientists first detected the proton in the atomic nucleus. Yet, much about its contents remains a mystery. Scientists report a new theory for understanding what's inside protons ...
Jan. 24, 2022 —Physicists have found evidence of X particles in the quark-gluon plasma produced in the Large Hadron Collider (LHC) at CERN, the European Organization for Nuclear Research, based near Geneva, ...
Feb. 24, 2021 —The results of a new experiment could shift research of the proton by reviving previously discarded theories of its inner ...
Dec. 9, 2020 —The positively charged protons in atomic nuclei should actually repel each other, and yet even heavy nuclei with many protons and neutrons stick together. The so-called strong interaction is ...