Overview
- Authors:
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Andreas Knauf
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Fachbereich 3 - Mathematik, MA 7-2, Technische Universität Berlin, Berlin, Germany
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Yakov G. Sinai
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Department of Mathematics, Princeton University, Princeton, USA
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Viviane Baladi
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Section de Mathématiques, Université de Genève, 1211 Genève 24, Switzerland
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Table of contents (7 chapters)
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- Andreas Knauf, Yakov G. Sinai, Viviane Baladi
Pages 1-2
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- Andreas Knauf, Yakov G. Sinai, Viviane Baladi
Pages 3-20
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- Andreas Knauf, Yakov G. Sinai, Viviane Baladi
Pages 21-46
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- Andreas Knauf, Yakov G. Sinai, Viviane Baladi
Pages 47-74
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- Andreas Knauf, Yakov G. Sinai, Viviane Baladi
Pages 75-78
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- Andreas Knauf, Yakov G. Sinai, Viviane Baladi
Pages 79-85
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- Andreas Knauf, Yakov G. Sinai, Viviane Baladi
Pages 87-93
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About this book
Our DMV Seminar on 'Classical Nonintegrability, Quantum Chaos' intended to introduce students and beginning researchers to the techniques applied in nonin tegrable classical and quantum dynamics. Several of these lectures are collected in this volume. The basic phenomenon of nonlinear dynamics is mixing in phase space, lead ing to a positive dynamical entropy and a loss of information about the initial state. The nonlinear motion in phase space gives rise to a linear action on phase space functions which in the case of iterated maps is given by a so-called transfer operator. Good mixing rates lead to a spectral gap for this operator. Similar to the use made of the Riemann zeta function in the investigation of the prime numbers, dynamical zeta functions are now being applied in nonlinear dynamics. In Chapter 2 V. Baladi first introduces dynamical zeta functions and transfer operators, illustrating and motivating these notions with a simple one-dimensional dynamical system. Then she presents a commented list of useful references, helping the newcomer to enter smoothly into this fast-developing field of research. Chapter 3 on irregular scattering and Chapter 4 on quantum chaos by A. Knauf deal with solutions of the Hamilton and the Schr6dinger equation. Scatter ing by a potential force tends to be irregular if three or more scattering centres are present, and a typical phenomenon is the occurrence of a Cantor set of bounded orbits. The presence of this set influences those scattering orbits which come close.
Authors and Affiliations
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Fachbereich 3 - Mathematik, MA 7-2, Technische Universität Berlin, Berlin, Germany
Andreas Knauf
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Department of Mathematics, Princeton University, Princeton, USA
Yakov G. Sinai
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Section de Mathématiques, Université de Genève, 1211 Genève 24, Switzerland
Viviane Baladi