Books in the Graduate Student Series in Physics series

A sequel to "Introduction to Gauge Field Theory", this book introduces first-year graduate students to supersymmetric theories, including supergravity and superstring theories. Starting with the necessary background in quantum field theory, it focuses on practical calculations rather than abstract generalities or phenomenological results.

Presents an exposition of the role of symmetry, particularly rotational symmetry, in quantum mechanics. This book covers the description of rotations (geometrically and group-theoretically) and their representations, and the quantum theory of angular momentum. It introduces advanced topics such as relativistic theory, supersymmetry, and anyons.

Offers an introduction to the properties of wave-like excitations associated with surfaces and interfaces. Emphasizing acoustic, optic, and magnetic excitations and, apart from one section on liquid surfaces, this text focuses on solids. It also relates theory and experiment and describes important experimental techniques.

Contains over 120 problems with model solutions, illustrating both principles and applications that range from solid-state physics to cosmology. This work progresses from the simpler aspects of thermodynamics and equilibrium statistical ensembles to the challenging ideas associated with strongly interacting systems and nonequilibrium processes.

Introduces the low-temperature phenomena of superfluidity and superconductivity from a unified viewpoint. This book stresses the existence of a macroscopic wave function as a central principle, presents a discussion of macroscopic theories, and includes descriptions of experimental results throughout.