Decoherence and the Appearance of a Classical World in Quantum Theory
[Book]
by Domenico Giulini, Erich Joos, Claus Kiefer, Joachim Kupsch, Ion-Olimpiu Stamatescu, H. Dieter Zeh.
Berlin, Heidelberg :
Imprint: Springer,
1996.
1. Introduction -- 2. The Program of Decoherence: Ideas and Concepts -- 3. Decoherence Through Interaction with the Environment -- 4. Decoherence in Quantum Field Theory -- 5. Consistent Histories and Decoherence -- 6. Superselection Rules and Symmetries -- 7. Open Quantum Systems -- 8. Stochastic Collapse Models -- 9. Related Ideas and Concepts -- A1. Derivation of the Equation of Motion of a Mass Point -- A2. Solutions for the Equation of Motion of a Mass Point -- A2.1 Gaussian Density Matrices -- A2.2 Green Functions -- A2.3 Some Derived Quantities -- A3. Quantum Correlations -- A3.1 Elementary Properties of Composite Systems in Quantum Mechanics -- A3.1.1 The Composite System Is in a Pure State -- A3.1.2 The Composite System Is in a Mixed State -- A3.2 Observations in Correlated Systems -- A4. Spaces of Linear Operators -- A5. Hamiltonian Formulation of Quantum Mechanics -- A6. Galilean Symmetry of Non-relativistic Quantum Mechanics -- A7. Stochastic Processes -- A7.1 General Definitions -- A7.2 Markov Chains -- A7.3 Stochastic Processes -- A7.4 The Fokker-Planck Equation -- A7.5 Stochastic Differential Equations -- A8. Stochastic Schrödinger Equations -- References.
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Decoherence, a concept known only to few physicists when the first edition appeared in 1996, has since become firmly established experimentally and understood theoretically, as well as widely reported in the literature. The major consequences of decoherence are the emergence of "classicality" in general, superselection rules, the border line between microscopic and macroscopic behavior in molecules and field theory, the emergence of classical spacetime, and the appearance of quantum jumps. The most important new developments in this rapidly evolving field are included in the second edition of this book, which has become a standard reference on the subject. All chapters have been thoroughly revised and updated. New fields of application now addressed span chaos theory, quantum information, neuroscience, primordial fluctuations in cosmology, black holes and string theory, experimental tests, and interpretational issues. While the major part of the book is concerned with environmental decoherence derived from a universal Schrödinger equation, later chapters address related or competing methods, such as consistent histories, open system dynamics, algebraic approaches, and collapse models.