'Should be widely read by practicing physicists, chemists and materials scientists.' — Philosophical Magazine In this comprehensive and innovative text, Professor Harrison (Stanford University) offers a basic understanding of the electronic structure of covalent and ionic solids, simple metals, transition metals, and their compounds. The book illuminates the relationships of the electronic structures of these materials and shows how to calculate dielectric, conducting, and bonding properties for each. Also described are various methods of approximating electronic structure, providing insight and even quantitative results from the comparisons.

Solid state physics. Machine derived contents note: Preface; I Solid Types And Symmetry; 1 Crystal Structures; 2 Symmetry of Crystals.

Algebra 9 klass shinibekov 2013. Harrison has also included an especially helpful 'Solid State Table of the Elements' that provides all the parameters needed to estimate almost any property of any solid, with a hand-held calculator, using the techniques developed in the book. Designed for graduate or advanced undergraduate students who have completed an undergraduate course in quantum mechanics or atomic and modern physics, the text treats the relation between structure and properties comprehensively for all solids rather than for small classes of solids. This makes it an indispensable reference for all who make use of approximative methods for electronic-structure engineering, semiconductor development and materials science. The problems at the ends of the chapters are an important aspect of the book.

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They clearly show that the calculations for systems and properties of genuine and current interest are actually quite elementary. Solid State Table of the Elements. Author and Subject Indexes. 'Will doubtless exert a lasting influence on the solid-state physics literature.' — Physics Today.

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 State Physics, even though Condensed Matter Physics is more commonly used. Condensed Matter Physics includes liquids and non-crystalline solids such as glass, which we shall not discuss in detail. Modern Solid State Physics came of age in the late thirties and forties, and had its most extensive expansion with the development of the transistor, integrated circuits, and microelectronics. Most of microelectronics however is limited to the properties of inhomogeneously doped semiconductors. Solid State Physics includes many other areas of course; among the largest of these are ferromagnetic materials, and superconductors. Just a little less than half of all working physicists are in Condensed Matter.

A course in Solid State Physics typically 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. One would then typically apply the above 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.

In this book, we will consider all of these.