Synopses & Reviews
Concepts from semiconductor physics, nonlinear-dynamics and chaos brought together to examine semiconductor transport phenomena.
Synopsis
This book brings together concepts from the important fields of semiconductor physics and nonlinear dynamics to examine transport phenomena in semiconductor systems. In doing so the wonders of nonlinearities, instabilities and chaos are revealed in a book that will be of great interest to semiconductor physicists and nonlinear scientists alike.
About the Author
Eckehard Schöll was born on February 6, 1951 in Stuttgart, Germany. He received his Diplom degree in physics (M. Sc.) from the University of Tuebingen, Germany, in 1976, the Ph. D. degree in applied mathematics from the University of Southampton, England, in 1978, and the Dr. rer. nat. degree and the veni legendi from Aachen University of Technology (RWTH Aachen), Germany, in 1981 and 1976 respectively. During 1983-1984 he was a Visiting Assistant Professor in the Department of Electrical and Computer Engineering, Wayne State University Detroit, Michigan. Since 1989 he has been a Professor Theoretical Physics at the Technical University of Berlin. His research interests include the theory of nonlinear charge transport and current instabilities in semiconductors, in particular, low-dimensional structures: nonlinear spatio-temporal dynamics, chaos, and pattern formation; and electro-optical nonlinearities. Dr Schöll is the author of the book Nonequilibrium Phase Transitions in Semiconductors (1987), translated into Russian in 1991, and the coauthor of The Physics of Instabilities in Solid State Electron Devices(1992), and has recently edited a monograph Theory of Transport Properties of Semiconductor Nanostructures (1998). He has published almost 200 articles in international journals like Physical Review Letters, Physical Review, Europhysics Letters, Semiconductor Science and Technology, Applied Physics Letters, Journal of Applied Physics, and many others. In 1997 he was awarded a prize as Champion of Teaching by the Technical University of Berlin.
Table of Contents
1. Semiconductors as continuous nonlinear dynamic systems; 2. Concepts of nonlinear charge transport in semiconductors; 3. Pattern formation and oscillatory instabilities in semiconductors; 4. Impact ionization induced impurity breakdown; 5. Nonlinear carrier dynamics in crossed electric and magnetic fields; 6. Stationary and oscillating domains in superlattices; 7. Spatio-temporal chaos.