![]() Chambers noted that there were not many textbooks covering these topics, as "since 1953, Kittel's classic Introduction to Solid State Physics has dominated the field so effectively that few competitors have appeared", noting that the third edition continues that legacy. In a 1969 review of another book, Robert G. The book is a classic textbook in the subject and has seen use as a comparative benchmark in the reviews of other books in condensed matter physics. They also noted that Kittel's content choices played a large role in defining the field of solid-state physics. Cohen, in an obituary for Kittel in 2019, remarked that the original book "was not only the dominant text for teaching in the field, it was on the bookshelf of researchers in academia and industry throughout the world", though they did not provide any time frame on when it may have been surpassed as the dominant text. Hume-Rothery rules, electrical conductivity, Kondo effect Shear strength of crystals, dislocations, hardness of materials Superconductivity, BCS theory, superconductors Nearly free electron model, Bloch's theorem, Kronig-Penney model, crystal momentumīand gap, electron holes, semimetals, superlattices Van der Waals force, Ionic crystals, covalent crystals, metals ![]() Wave Diffraction and the Reciprocal Latticeĭiffraction, Bragg Law, Fourier analysis, reciprocal lattice vectors, Laue equations, Brillouin zone, atomic form factor The chapters are broken into sections that highlight the topics. The book covers a wide range of topics in solid state physics, including Bloch's theorem, crystals, magnetism, phonons, Fermi gases, magnetic resonance, and surface physics. ![]() The field of solid state physics was very new at the time of writing and was defined by only a few treatises that, in the Ehrenreich's view, expounded rather than explained the topics and were not suitable as textbooks. Henry Ehrenreich has noted that before the first edition of Introduction to Solid State Physics came out in 1953, there were no other textbooks on the subject rather, the young field's study material was spread across several prominent articles and treatises. He worked for the Naval Ordnance Laboratory from 1940 to 1942, was a research physicist in the US Navy until 1945, worked at the Research Laboratory of Electronics at MIT from 1945 to 1947 and at Bell Labs from 1947 to 1951, and was a visiting associate professor at UC Berkeley from 1950 until his promotion. Before being promoted to professor of physics at UC Berkeley in 1951, Kittel held several other positions. Kittel received his PhD from the University of Wisconsin–Madison in 1941 under his advisor Gregory Breit. Along with its rival Ashcroft and Mermin, the book is considered a standard textbook in condensed matter physics. In some later editions, the eighteenth chapter, titled Nanostructures, was written by Paul McEuen. The book is published by John Wiley and Sons and, as of 2018, it is in its ninth edition and has been reprinted many times as well as translated into over a dozen languages, including Chinese, French, German, Hungarian, Indonesian, Italian, Japanese, Korean, Malay, Romanian, Russian, Spanish, and Turkish. It was also the first proper textbook covering this new field of physics. ![]() Cohen remarked in 2019 that Kittel's content choices in the original edition played a large role in defining the field of solid-state physics. The book has been highly influential and has seen widespread adoption Marvin L. Introduction to Solid State Physics, known colloquially as Kittel, is a classic condensed matter physics textbook written by American physicist Charles Kittel in 1953. Identifiers refer to the 8th edition of the book, printed in 2005, unless otherwise noted ![]()
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