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Introduction to statistical physics / Kerson Huang.

By: Huang, Kerson, 1928-Material type: Text

TextPublisher: Boca Raton : CRC Press, c2010Edition: 2nd edDescription: xiii, 318 p. : ill. ; 25 cmISBN: 9781420079029 (hardcover : alk. paper); 1420079026 (hardcover : alk. paper)Subject(s): Statistical physics | Statistische Physik | Physique statistique | Statistical physics | Statistische PhysikDDC classification: 530.13 LOC classification: QC174.8 | .H82 2010

Contents:

A macroscopic view of matter -- Heat and entropy -- Using thermodynamics -- Phase transitions -- The statistical approach -- Maxwell-Boltzmann distribution -- Transport phenomena -- Canonical ensemble -- Grand canonical ensemble -- Noise -- Stochastic processes -- Timer-series analysis -- THe Langevin equation -- Quantun statistics -- Quantum ensembles -- The Fermi gas -- The Bose gase -- Bose-Einstein condensation -- The order parameter -- Superfluidity -- Superconductivity.

Summary: Written by a world-renowned theoretical physicist, Introduction to Statistical Physics, Second Edition clarifies the properties of matter collectively in terms of the physical laws governing atomic motion. This second edition expands upon the original to include many additional exercises and more pedagogically oriented discussions that fully explain the concepts and applications. The book first covers the classical ensembles of statistical mechanics and stochastic processes, including Brownian motion, probability theory, and the Fokker-Planck and Langevin equations. To illustrate the use of statistical methods beyond the theory of matter, the author discusses entropy in information theory, Brownian motion in the stock market, and the Monte Carlo method in computer simulations. The next several chapters emphasize the difference between quantum mechanics and classical mechanics-the quantum phase. Applications covered include Fermi statistics and semiconductors and Bose statistics and Bose-Einstein condensation. The book concludes with advanced topics, focusing on the Ginsburg-Landau theory of the order parameter and the special kind of quantum order found in superfluidity and superconductivity. Assuming some background knowledge of classical and quantum physics, this textbook thoroughly familiarizes advanced undergraduate students with the different aspects of statistical physics. This updated edition continues to provide the tools needed to understand and work with random processes. (Book Cover)

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Item type	Current location	Call number	Status	Date due	Barcode
Books	GKVK Library	530.13 HUA (Browse shelf)	Available		142339

"A Chapman & Hall book."

Includes bibliographical references and index.

Written by a world-renowned theoretical physicist, Introduction to Statistical Physics, Second Edition clarifies the properties of matter collectively in terms of the physical laws governing atomic motion. This second edition expands upon the original to include many additional exercises and more pedagogically oriented discussions that fully explain the concepts and applications. The book first covers the classical ensembles of statistical mechanics and stochastic processes, including Brownian motion, probability theory, and the Fokker-Planck and Langevin equations. To illustrate the use of statistical methods beyond the theory of matter, the author discusses entropy in information theory, Brownian motion in the stock market, and the Monte Carlo method in computer simulations. The next several chapters emphasize the difference between quantum mechanics and classical mechanics-the quantum phase. Applications covered include Fermi statistics and semiconductors and Bose statistics and Bose-Einstein condensation. The book concludes with advanced topics, focusing on the Ginsburg-Landau theory of the order parameter and the special kind of quantum order found in superfluidity and superconductivity. Assuming some background knowledge of classical and quantum physics, this textbook thoroughly familiarizes advanced undergraduate students with the different aspects of statistical physics. This updated edition continues to provide the tools needed to understand and work with random processes. (Book Cover)

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