
This book presents an up-to-date formalism of non-equilibrium Green's functions covering different applications ranging from solid state physics, plasma physics, cold atoms in optical lattices up to relativistic transport and heavy ion collisions. Within the Green's function formalism, the basic sets of equations for these diverse systems are similar, and approximations developed in one field can be adapted to another field. The central object is the self-energy which includes all non-trivial aspects of the system dynamics. The focus is therefore on microscopic processes starting from elementary principles for classical gases and the complementary picture of a single quantum particle in a random potential. This provides an intuitive picture of the interaction of a particle with the medium formed by other particles, on which the Green's function is built on.
This text investigates the unified formalism of non-equilibrium Green's functions to describe interacting systems across diverse physical domains. Klaus Morawetz, a researcher in theoretical physics, utilizes the self-energy as a central analytical tool to bridge the gap between microscopic dynamics and macroscopic observations. By establishing a common mathematical framework, the author demonstrates how approximations derived in one subfield, such as solid state physics, can be effectively applied to others like relativistic transport or cold atom systems.
What You Will Find
Scope Limits
Experts recognize this work as a rigorous technical reference for researchers and graduate students specializing in many-body physics. Readers frequently note the high mathematical density of the prose, which requires a strong background in quantum field theory to navigate effectively.
Page Count:
608
Publication Date:
2017-01-01
Publisher:
OUP Oxford
ISBN-10:
0192517783
ISBN-13:
9780192517784
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