Statistical mechanics and the physics of many-particle model systems
Singapore
World Scientific
2017
xxv, 1232 pages : illustrations ; 25 cm
Includes bibliographical references and index
Alexander Leonidovich Kuzemsky
Probability, information and physics -- Dynamics of particles -- Perturbation theory -- Scattering theory -- Green functions method in mathematical physics -- Symmetry and invariance -- The angular momentum and spin -- Equilibrium statistical thermodynamics -- Dynamics and statistical mechanics -- Thermodynamic limit in statistical mechanics -- Maximum entropy principle -- Band theory and electronic properties of solids -- Magnetic properties of substances and materials -- Statistical physics of many-particle system -- Thermodynamic Green functions -- Applications of the Green functions method -- Spin systems and the Green functions method -- Correlated fermion systems on a lattice: Hubbard model -- Correlated fermion systems on a lattice Anderson model -- Spin-fermion model of magnetism: quasiparticle many-body dynamics -- Spin-fermion model of magnetism: theory of magnetic polaron -- Quantum protectorate and microscopic models of magnetism -- Quasiaverages and symmetry breaking -- Emergence and emergent phenomena -- Electron-lattice interaction in metals and alloys -- Superconductivity in transition metals and their disordered alloys -- Spectral properties of the generalized spin-fermion models -- Correlation effects in high-Tc superconductors and heavy fermion compounds -- Generalized mean fields and variational principle of Bogoliubov -- Nonequilibrium statistical thermodynamics -- Method of the nonequilibrium statistical operator -- Nonequilibrium statistical operator and transport equations -- Applications of the nonequilibrium statistical operator -- Generalized Van Hove formula for scattering of particles by statistical medium -- Electronic transport in metallic systems