Overview
- 2nd edition of a successful textbook
- Presents the rich teaching experience of two gifted professors
- Covers the important basic aspects of the entire field of solid state physics
- Comes with a 200 pages manual of exercises and solutions to support learning and teaching
- Very valuable graduate textbook
- Includes supplementary material: sn.pub/extras
- Request lecturer material: sn.pub/lecturer-material
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About this book
Learning Solid State Physics involves a certain degree of maturity, since it involves tying together diverse concepts from many areas of physics. The objective is to understand, in a basic way, how solid materials behave. To do this one needs both a good physical and mathematical background. One definition of Solid State Physics is it is the study of the physical (e.g. the electrical, dielectric, magnetic, elastic, and thermal) properties of solids in terms of basic physical laws. In one sense, Solid State Physics is more like chemistry than some other branches of physics because it focuses on common properties of large classes of materials. It is typical that Solid State Physics emphasizes how physics properties link to electronic structure. We have retained the term Solid
Modern solid state physics came of age in the late thirties and forties and is now is part of condensed matter physics which includes liquids, soft materials, and non-crystalline solids. This solid state/condensed matter physics book begins with three broad areas: (1) How and why atoms bind together to form solids, (2) Lattice vibrations and phonons, and (3) Electrons in solids. It then applies these areas to (4) Interactions especially of electrons with phonons, (5) Metals, the Fermi surface and alloys, (6) Semiconductors, (7) Magnetism, (8) Superconductivity, (9) Dielectrics and ferroelectrics, (10) Optical properties, (11) Defects, and (12) Certain other modern topics such as layered materials, quantum Hall effect, mesoscopics, nanophysics, and soft condensed matter.
For this 2nd addition new material has been added on the evolution of BEC to BCS phenomena, conducting polymers, graphene, highly correlated electrons, iron pnictide superconductors, light emitting diodes, N-V centers, nanomagnetism, negative index of refraction, optical lattices, phase transitions, phononics, photonics, plasmonics, quantum computing, solar cells, spin Hall effect, and spintronics.
The major addition to this 2nd edition is an extensive solutions manual, in which all the text problems are discussed. The problems in our book cover a wide range of difficulty. The solutions in this manual are expected to show what we expect to get out of the problems. In the manual, we have also included a brief summary of solid state physics which should help you get focused on problem solving. We have also included "folk theorems" to remind about the essence of the physics without the mathematics.
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Table of contents (12 chapters)
Reviews
From the reviews:
"An update to Patterson’s 1971 text, it adds a great deal of modern material, nearing doubling the size of the original. This expansion makes it definitely a candidate for a contemporary class. … the choice of a text for a solid-state physics course, or any other physics-related course, is a personal one. The style of Patterson and Bailey’s Solid-State Physics might well fit that of … physics instructors." (Walter Harrison, Physics Today, January, 2008)
Authors and Affiliations
Bibliographic Information
Book Title: Solid-State Physics
Book Subtitle: Introduction to the Theory
Authors: James Patterson, Bernard Bailey
DOI: https://doi.org/10.1007/978-3-642-02589-1
Publisher: Springer Berlin, Heidelberg
eBook Packages: Physics and Astronomy, Physics and Astronomy (R0)
Copyright Information: Springer-Verlag Berlin Heidelberg 2010
Softcover ISBN: 978-3-662-49994-8Published: 23 August 2016
eBook ISBN: 978-3-642-02589-1Published: 08 December 2010
Edition Number: 2
Number of Pages: XXI, 827
Topics: Solid State Physics, Theoretical, Mathematical and Computational Physics, Theoretical and Applied Mechanics, Condensed Matter Physics, Spectroscopy and Microscopy, Electronics and Microelectronics, Instrumentation