The Mystery of the Missing Antimatter
Yossi Nir, Helen R. Quinn
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Naturwissenschaften, Medizin, Informatik, Technik / Physik, Astronomie
Beschreibung
In the first fractions of a second after the Big Bang lingers a question at the heart of our very existence: why does the universe contain matter but almost no antimatter? The laws of physics tell us that equal amounts of matter and antimatter were produced in the early universe—but then something odd happened. Matter won out over antimatter; had it not, the universe today would be dark and barren.
But how and when did this occur? In The Mystery of the Missing Antimatter, Helen Quinn and Yossi Nir guide readers into the very heart of this mystery—and along the way offer an exhilarating grand tour of cutting-edge physics.
Kundenbewertungen
Higgs boson, Bottom quark, Annihilation, Nuclear force, Quantum mechanics, Fermion, Alpha decay, Nuclear fusion, Spin (physics), Particle physics, Down quark, Positron, Proton decay, Lepton number, Antiproton, Nuclear emulsion, Quantum electrodynamics, Spontaneous symmetry breaking, Available energy (particle collision), Baryon, Theoretical physics, Weak interaction, Lepton, Mirror symmetry (string theory), Particle accelerator, Weakly interacting massive particles, Supernova Cosmology Project, Physics beyond the Standard Model, Dark matter, Neutrino detector, Supersymmetry, Dirac equation, Discovery of the neutron, Neutrino oscillation, Neutrino, Baryon number, Dark matter halo, Quark model, Meson, Antiparticle, Baryon asymmetry, Dark energy, Massless particle, Strange quark, Particle decay, Neutron, Strangeness, Atomic nucleus, Antimatter, CP violation, Quark, Beta decay, Chronology of the universe, Elementary particle, Quantum number, Big Bang nucleosynthesis, Atomic theory, Quantum process, Positron emission, Radioactive decay, Electron neutrino, Asymmetry, Nuclear physics, Double beta decay, Experimental physics, Particle detector, Cosmic microwave background, Photon, Leptogenesis (physics), Physicist