Advanced Quantum Mechanics

by J. J. Sakurai

Blurb

This widely-regarded classic presents the major advances in the fundamentals of quantum physics. No familiarity with relativistic quantum mechanics or quantum field theory is presupposed, but the reader is assumed to be familiar with non-relativistic quantum mechanics, classical thermodynamics and classical mechanics. Table of contentspart i: classical fields particles & fields a discrete and continuous mechanical systems classical scalar fields classical maxwell fields vector potentials in quantum mechanics.part ii: the quantum theory of radiation classical radiation field creation, annihilation, and number operators quantized radiation field emission and absorption of photons by atoms rayleigh scattering, thomson scattering and the rama effect radiation damping and resonance fluorescence dispersion relations and causality the self-energy of a bound electron; the lamb shiftpart iii: relativistic quantum mechanics of spin-1/2 particles probability conservation in relativistic quantum mechanics the dirac equation simple solutions; non-relativistic approximations; plane waves relativistic covariance bilinear covariants dirac operators in the heisenberg representation zitterbewegung and negative-energy solutions central force problems; the hydrogen atom hole theory and charge conjugation quantization of the dirac field weak interactions and parity nonconservation; the two-component neutrino part iv: covariant perturbation theory natural units and dimensions s-matrix expansion in the interaction representation + first order processes; mott scattering and hyperon decay two-photon annihilation and compton scattering; the electron propagator feynmans space-time approach to the electron propagator moller scattering and the photon propagator; one meson exchange interactions mass and charge renormalization; radiative corrections

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