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Invariance Principles and Elementary Particles
Jun John Sakurai
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Naturwissenschaften, Medizin, Informatik, Technik / Naturwissenschaften allgemein
Beschreibung
J. J. Sakurai's treatment of various elementary particle phenomena, is written for those not completely familiar with field theory who wish to gain insight into theoretical problems. Since the manuscript for his book was completed, a very important development has taken place in particle physics-the discovery of the p, w, and n mesons: in view of this development, the author has added a new section devoted exclusively to these new mesons and resonances.
Originally published in 1964.
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Kundenbewertungen
Bose–Einstein statistics, Quantum number, Photon, Elementary particle, Vector meson, Coupling constant, Electric charge, Lepton number, Dirac equation, Positronium, Spin (physics), Isospin, Weak interaction, Gauge theory, Dalitz plot, Helicity (particle physics), Schrödinger equation, Equivalence principle, Quantum mechanics, Conservation law, Spinor, Lorentz covariance, Lorentz transformation, Strong interaction, Deuterium, Eigenfunction, Particle physics, Energy level, Quantity, Vector boson, Pion, Asymmetry, Lagrangian (field theory), Muon, Wave function, Meson, Unitarity (physics), Rotational invariance, Superposition principle, Selection rule, Baryon, Phase space, Relativistic quantum mechanics, Scalar (physics), Intrinsic parity, Fermi–Dirac statistics, Scattering amplitude, Magnetic quantum number, Particle number, Scattering, Classical electromagnetism, Probability, Antiparticle, Electromagnetism, Angular momentum, Beta decay, Expectation value (quantum mechanics), Positron, Lepton, Baryon number, Fermion, Nucleon, Neutron, Neutrino, Quantum electrodynamics, Creation and annihilation operators, Elementary charge, Global symmetry, Perturbation theory (quantum mechanics), Hyperon