Basic Notions Of Condensed Matter Physics
Basic Notions of Condensed Matter Physics is a clear introduction to some of the most significant concepts in the physics of condensed matter. The general principles of many-body physics and perturbation theory are emphasised, providing supportive mathematical structure. This is an expansion and restatement of the second half of Nobel Laureate Philip Anderson's classic Concepts in Solids.
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Basic Notions Of Condensed Matter Physics
Basic Notions of Condensed Matter Physics is a clear introduction to some of the most significant concepts in the physics of condensed matter. The general principles of many-body physics and perturbation theory are emphasised, providing supportive mathematical structure. This is an expansion and restatement of the second half of Nobel Laureate Philip Anderson's classic Concepts in Solids.
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Basic Notions Of Condensed Matter Physics

Basic Notions Of Condensed Matter Physics

by Philip W. Anderson
Basic Notions Of Condensed Matter Physics
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Basic Notions Of Condensed Matter Physics

Basic Notions Of Condensed Matter Physics

by Philip W. Anderson

Overview

Basic Notions of Condensed Matter Physics is a clear introduction to some of the most significant concepts in the physics of condensed matter. The general principles of many-body physics and perturbation theory are emphasised, providing supportive mathematical structure. This is an expansion and restatement of the second half of Nobel Laureate Philip Anderson's classic Concepts in Solids.

Product Details

ISBN-13: 9780367091187
Publisher: CRC Press
Publication date: 06/07/2019
Series: Advanced Book Classics
Pages: 564
Product dimensions: 6.00(w) x 9.00(h) x (d)

About the Author

Philip Anderson was born in 1923 in Indianapolis, Indiana. In 1949, he received his Ph.D. from Harvard University, where he studied under J.H. Van Yleck. He joined the technical staff of Bell Laboratories that same year. From 1967 to 1975 he held a part-time professor­ship at Cambridge University. He is currently Joseph Henry Professor of Physics emeritus at Princeton University. He has received numerous distinctions and honors, including the O.E. Buckley Prize, the John Bardeen Prize, the Dannie Heineman Prize, the National Medal of Science, and the 1977 Nobel Prize.

Table of Contents

Basic principles I - broken symmetry; basic principles II - adiabatic continuity and renormalization; solids, quantum and otherwise; uses of the idea of the renormalization group in many-body physics; broken symmetry; topology; Bose systems; quantum solids; renormalization group.
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