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The Oxford Solid State Basics

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The Oxford Solid State Basics Paperback - 2013 - 1st Edition

Name: The Oxford Solid State Basics
Price: 120.21 AUD
Availability: InStock
Author: Simon, Steven H
ISBN: 9780199680771

by Simon, Steven H

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Title The Oxford Solid State Basics
Author Simon, Steven H
Binding Paperback
Edition number 1st
Edition 1
Condition Used - Good
Pages 320
Volumes 1
Language ENG
Publisher Oxford University Press, New York
Publication date 2013-08-16
Illustrated Yes
Features Bibliography, Illustrated, Index
Bookseller's Inventory # 0199680779.G
ISBN 9780199680771 / 0199680779
Weight 1.5 lbs (0.68 kg)
Dimensions 9.1 x 7.5 x 0.9 in (23.11 x 19.05 x 2.29 cm)
Themes
- Aspects (Academic): Science/Technology Aspects
Category Science
Library of Congress subjects Solid state physics
Library of Congress Catalogue Number 2013936358
Dewey Decimal Code 530.41
Quantity available 1

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From the publisher

The study of solids is one of the richest, most exciting, and most successful branches of physics. While the subject of solid state physics is often viewed as dry and tedious this new book presents the topic instead as an exciting exposition of fundamental principles and great intellectual breakthroughs. Beginning with a discussion of how the study of heat capacity of solids ushered in the quantum revolution, the author presents the key ideas of the field while emphasizing the deep underlying concepts.

The book begins with a discussion of the Einstein/Debye model of specific heat, and the Drude/Sommerfeld theories of electrons in solids, which can all be understood without reference to any underlying crystal structure. The failures of these theories force a more serious investigation of microscopics. Many of the key ideas about waves in solids are then introduced using one dimensional models in order to convey concepts without getting bogged down with details. Only then does the book turn to consider real materials.

Chemical bonding is introduced and then atoms can be bonded together to crystal structures and reciprocal space results. Diffraction experiments, as the central application of these ideas, are discussed in great detail. From there, the connection is made to electron wave diffraction in solids and how it results in electronic band structure. The natural culmination of this thread is the triumph of semiconductor physics and devices.

The final section of the book considers magnetism in order to discuss a range of deeper concepts. The failures of band theory due to electron interaction, spontaneous magnetic orders, and mean field theories are presented well. Finally, the book gives a brief exposition of the Hubbard model that undergraduates can understand.

The book presents all of this material in a clear fashion, dense with explanatory or just plain entertaining footnotes. This may be the best introductory book for learning solid state physics. It is certainly the most fun to read.

To request a copy of the Solutions Manual, visit: http: //global.oup.com/uk/academic/physics/admin/solutions

About the author

Steven H. Simon, Professor of Theoretical Condensed Matter Physics, Department of Physics, University of Oxford, and Fellow of Somerville College, Oxford.

Professor Steven Simon earned a BSc degree from Brown in Physics & Mathematics in 1989 and a PhD in Theoretical Physics from Harvard in 1995. Following a two-year post-doc at MIT, he joined Bell Labs, where he was a director of research for nine years. He is currently Professor of Theoretical Condensed Matter Physics in the Department of Physics at the University of Oxford, and a Fellow of Somerville College, Oxford.

His research is in the area of condensed matter physics and communication, including subjects ranging from microwave propagation to high temperature superconductivity. He is interested in quantum effects and how they are manifested in phases of matter. He has recently been studying phases of matter known as "topological phases" that are invariant under smooth deformations of space-time. He is also interested in whether such phases of matter can be used for quantum information processing and quantum computation.

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