Phase Transitions of Simple Systems: 42 (Springer Series on Atomic, Optical, and Plasma Physics, 42) - Hardcover

Book 17 of 120: Springer Series on Atomic, Optical, and Plasma Physics

Smirnov, Boris M.; Berry, Stephen R.

 
9783540715139: Phase Transitions of Simple Systems: 42 (Springer Series on Atomic, Optical, and Plasma Physics, 42)
Hardcover
ISBN 10: 3540715134 ISBN 13: 9783540715139
Publisher: Springer, 2007

Synopsis

Thermodynamic concepts of aggregate states and their phase transitions - veloped during the 19th Century and are now the basis of our contem- rary understanding of these phenomena. Thermodynamics gives an universal, macroscopic description of the equilibrium properties of phase transitions - dependent of the detailed nature of the substances. However understanding the nature of phase transitions at the microscopic level requires a di?erent approach, one that takes into account the speci?cs of the interparticle int- actions. In this book, we lay the groundwork that connects the microscopic phenomena underlying phase changes with the macroscopic picture, but in a somewhat restricted way. We deal only with systems in which electronic excitations are not important, only with atomic systems, and only with - mogeneous systems. We also restrict our analysis to systems in which only pairwise interactions need be included, and, in many parts of the treatment, to systems in which one need consider only the interactions between nearest neighbor atoms. In establishing these restrictions, we can be guided by the solid and liquid states of inert gases and the phase transitions between them, althoughthesubsequentanalysisisrelevantandapplicableforaseriesofother physical systems. To study the behavior of a system of many interacting identical par- cles, we work extensively with its potential energy surface (PES), a surface in a many-dimensional space whose independent variables are the monomer coordinates or some transformation thereof. A central property of any m- tidimensional PES is its large number of local minima.

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About the Author

R. Stephen Berry is James Franck Distinguished Service Professor Emeritus in the Chemistry Department at The University of Chicago. He has studied phase changes and phase equilibria for twenty years. He is a MacArthur Fellow and a Member of the National Academy of Sciences of the U.S.A., and has been author or coauthor of five books prior to this. He and his coauthor of this book have known each other for over 40 years, from the time both were working on atomic collision processes. They have been collaborating for about 10 years, in their studies of clusters and of phase transitions.

Boris M. Smirnov is a distinguished physicist who worked for many years at the Institute for Ball Lightning, prior to his joining the Institute for High Temperatures in Moscow.

From the Back Cover

This monograph develops a unified microscopic basis for phases and phase changes of bulk matter and small systems in terms of classical physics. The origins of such phase changes are derived from simple but physically relevant models of how transitions between rigid crystalline, glassy and fluid states occur, how phase equilibria arise, and how bulk properties evolve from those of small systems.

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Publisher
Springer
Publication date
2007
Language
English
ISBN 10 
3540715134
ISBN 13 
9783540715139
Binding
Hardcover
Number of pages
257

Other Popular Editions of the Same Title

9783642090738: Phase Transitions of Simple Systems: 42 (Springer Series on Atomic, Optical, and Plasma Physics, 42)

Featured Edition

ISBN 10:  3642090737 ISBN 13:  9783642090738
Publisher: Springer, 2010
Softcover