Entanglement and Decoherence [electronic resource] : Foundations and Modern Trends / edited by Andreas Buchleitner, Carlos Viviescas, Markus Tiersch.

Contributor(s):

Material type: Text

TextSeries: Lecture Notes in Physics ; 768Publisher: Berlin, Heidelberg : Springer Berlin Heidelberg, 2009Description: X, 320 p. online resourceContent type:

text

Media type:

computer

Carrier type:

online resource

ISBN:

9783540881698

Subject(s):

Additional physical formats: Printed edition:: No title; Printed edition:: No title; Printed edition:: No titleDDC classification:

621.3 23

LOC classification:

QA76.889
TK7874.887

Online resources:

Click here to access online

Contents:

Geometry of State Spaces -- Basic Concepts of Entangled States -- Topology and Quantum Computing -- Entanglement in Phase Space -- to Decoherence Theory -- Diffusive Spin Transport.

In: Springer eBooksSummary: Entanglement and (de-)coherence arguably define the central issues of concern in present day quantum information theory. Entanglement being a consequence of the quantum mechanical superposition principle for composite systems, a better understanding of the environment-induced destruction of coherent superposition states is required to devise novel strategies for harvesting quantum interference phenomena. The present book collects a series of advanced lectures on the theoretical foundations of this active research field, from mathematical aspects underlying quantum topology to mesoscopic transport theory. All lectures start out from an elementary level and proceed along a steep learning curve. This makes the material particularly suitable for student seminars on the more fundamental theoretical aspects of quantum information, and equally useful as supplementary reading for advanced lectures on this topic.

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Geometry of State Spaces -- Basic Concepts of Entangled States -- Topology and Quantum Computing -- Entanglement in Phase Space -- to Decoherence Theory -- Diffusive Spin Transport.

Entanglement and (de-)coherence arguably define the central issues of concern in present day quantum information theory. Entanglement being a consequence of the quantum mechanical superposition principle for composite systems, a better understanding of the environment-induced destruction of coherent superposition states is required to devise novel strategies for harvesting quantum interference phenomena. The present book collects a series of advanced lectures on the theoretical foundations of this active research field, from mathematical aspects underlying quantum topology to mesoscopic transport theory. All lectures start out from an elementary level and proceed along a steep learning curve. This makes the material particularly suitable for student seminars on the more fundamental theoretical aspects of quantum information, and equally useful as supplementary reading for advanced lectures on this topic.

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