Relaxation Phenomena in Condensed Matter Physics

absorber absorption anelastic angular momentum applications assumed atom averaged time-development operator axis behavior Chapter component conditional probability consider correlation function Dattagupta decay density operator diffusion dipole discussed dt exp(-iwt energy equilibrium example exp(ik expression fluctuations Fokker-Planck equation frequency gamma ray given Hamiltonian heat bath Hence hyperfine interaction I₁ interstitial jump matrix jump process jump rate k₁ Laplace transform Liouville operator liquids magnetic field many-body Markov process matrix elements molecular molecule Mössbauer effect Mössbauer line shape Mössbauer Spectroscopy motional narrowing muon neutron scattering nuclear nucleus obtain P(x₁ P₁ P₂ particle perturbation factor Phys physical quantum radiation Raman Raman scattering random relaxation phenomena relaxation rate resonance result S₂ Section spectra spectroscopy stationary stochastic process stochastic variable subsystem t₁ t₂ theory thermal transition Ũo(s values vector velocity vibrational x₁ yields νμ