A CAREER IN THEORETICAL PHYSICS
Second Edition
by Philip W Anderson (Princeton University, USA)
This unique volume presents the scientific achievements of Nobel laureate Philip Anderson, spanning the many years of his career. In this new edition, the author has omitted some review papers as well as added over 15 of his research papers. As in the first edition, he provides an introduction to each paper by explaining the genesis of the papers or adding some personal history.
The book provides a comprehensive overview of the author's work which include significant discoveries and pioneering contributions, such as his work on the Anderson model of magnetic impurities and the concept of localization; the study of spin glasses, the fluctuating valence problem and superexchange; his prediction of the existence of superfluidity in He3; his involvement in the discovery of the Josephson effect; his discovery of the "Higgs" mechanism in elementary particle physics; and so on.
The new papers added to this edition include "Pressure Broadening in the Microwave and Infrared Regions" — a condensation of most of the author's thesis; �Ordering and Antiferromagnetism in Ferrites� � the best-known of the papers written by the author involving what are known as �frustrated� lattices; and �Localized Magnetic States in Metals� � a paper mentioned in his Nobel Prize citation along with localization and superexchange; to name a few.
A Career in Theoretical Physics is an essential source of reference for physicists, chemists, materials scientists and historians of science. It is also suitable reading for graduate students.
Contents:
- Pressure Broadening in the Microwave and Infrared Regions
- Absence of Diffusion in Certain Random Lattices
- Theory of Dirty Superconductors
- Localized Magnetic States in Metals
- Infrared Catastrophe in Fermi Gases with Local Scattering Potentials
- The Fermi Glass: Theory and Experiment
- Possible Consequences of Negative U Centers in Amorphous Materials
- Localization Redux
- Suggested Model for Prebiotic Evolution: The Use of Chaos
- Physics: The Opening to Complexity
- and other papers
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Readership: Physicists, chemists and materials scientists.