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Kinetic Processes: Crystal Growth, Diffusion, and Phase Transitions in Materials, 2nd Edition

ISBN: 978-3-527-32736-2

August 2010

453 pages

Description
Kinetic Processes

This revised edition provides the reader with an up-to-date account of the current state of crystal growth kinetics. Amidst the new content is - published for the first time in a book - the groundbreaking results of spinodal decomposition.

The refined didactical approach with a streamlined presentation now allows readers to grasp the kinetic concepts even more easily, coherently introducing the field of kinetic processes, especially those involved in crystal growth, and explaining such phenomena as diffusion, nucleation, segregation and phase transitions at a level accessible to graduate students. In addition to the basic kinetic concepts, the textbook presents modern applications where these processes play a major role, including ion implantation, plasma deposition and rapid thermal processing.

About the Author

Kenneth A. Jackson is Professor Emeritus in the Department of Materials Science and Engineering at the University of Arizona in Tucson, USA. He received his PhD degree from Harvard University and was an assistant Professor there before he joined AT & T Bell Laboratories. At Bell Labs he was head of Materials Physics Research for many years. His major scientific interests are the kinetic processes of crystal growth, and his scientific contributions include constitutional supercooling, the surface roughening transition, defect formation in crystals, and studies of alloy crystallization. He pioneered in computer simulation studies of the atomic scale processes during crystal growth. Kenneth A. Jackson has served as President for both the American Association for Crystal Growth and the Materials Research Society. He has received numerous awards for his scientific contributions from both the American and the International Crystal Growth societies. He is also a member of the National Academy of Engineering.