A Group Theoretic Approach to Quantum Information

A Group-Theoretical Approach to Quantum Optics: Models of Atom-Field Interactions
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  • A Group Theoretic Approach to Quantum Information
  • Mathematical Foundation
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    • Description Content Author information Written by major contributors to the field who are well known within the community, this is the first comprehensive summary of the many results generated by this approach to quantum optics to date. Introduction 1. Atomic Kinematics 2. Atomic Dynamics 3. Quantized Electromagnetic Fields 4.

    Mathematical Foundation

    Field Dynamics 5. Jaynes-Cummings Model 6. Collective Interactions 7. Atomic Systems in a strong Quantum Field 8.

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    • Publications.

    Journal: Phys. X Rev. A Phys.

    B Phys. C Phys.

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    This book is the first one addressing quantum information from the viewpoint of group symmetry. Quantum systems have a group symmetrical structure. Request PDF on ResearchGate | A Group Theoretic Approach to Quantum Information | This textbook is the first one addressing quantum information from the.

    D Phys. E Phys. Fluids Phys. Materials Phys. Applied Phys.

    Putz, D. Zajac, J.

    A Group Theoretic Approach to Quantum Information

    Taylor, G. Burkard, and J. Benito, X.

    Mathematical Foundation

    Thanks to this unified approach, it makes accessible such advanced topics in quantum communication as quantum teleportation, superdense coding, quantum state transmission quantum error-correction and quantum encryption. The laws of quantum mechanics govern the behavior of infinitesimal particles such as individual photons or electrons. Incorporating ideas from the garden-hose model of computation, Dulek, Schaffner, and Speelman 24 expanded this scheme to allow the evaluation of polynomial-depth circuits. It is shown how infinite trace semantics of probabilistic transition systems arises through a determinisation construction, which is then used in a bisimulation-based algorithm for infinite trace equivalence. FAQ Policy.

    Mi, J. Taylor, J.

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    Zajac, AJ. Sigillito, M. Russ, F. Borjans, J. Burkard, J.