Quantum Information Processing, Second Edition

Copyright © 2005 Wiley-VCH Verlag GmbH & Co. KGaA

Quantum Information Processing, Second Edition

Editor(s): Thomas Beth, Gerd Leuchs

Published Online: 13 DEC 2005

Print ISBN: 9783527405411

Online ISBN: 9783527606009

DOI: 10.1002/3527606009

About this Book

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About The Product

Quantum processing and communication is emerging as a challenging technique at the beginning of the new millennium. This is an up-to-date insight into the current research of quantum superposition, entanglement, and the quantum measurement process - the key ingredients of quantum information processing. The authors further address quantum protocols and algorithms. Complementary to similar programmes in other countries and at the European level, the German Research Foundation (DFG) started a focused research program on quantum information in 1999. The contributions - written by leading experts - bring together the latest results in quantum information as well as addressing all the relevant questions.

Table of contents

    1. You have free access to this content
      Front Matter (pages i–xxii)

    2. Chapter 1

      Algorithms for Quantum Systems – Quantum Algorithms (pages 1–13)

      Th. Beth, M. Grassl, D. Janzing, M. Rötteler, P. Wocjan and R. Zeier

    3. Chapter 2

      Quantum Information Processing and Error Correction with Jump Codes (pages 14–27)

      G. Alber, M. Mussinger and A. Delgado

    4. Chapter 3

      Computational Model for the One-Way Quantum Computer: Concepts and Summary (pages 28–43)

      Robert Raussendorf and Hans J. Briegel

    5. Chapter 4

      Quantum Correlations as Basic Resource for Quantum Key Distribution (pages 44–57)

      M. Curty, O. Gühne, M. Lewenstein and N. Lütkenhaus

    6. Chapter 5

      Increasing the Size of NMR Quantum Computers (pages 58–69)

      S. J. Glaser, R. Marx, T. Reiss, T. Schulte-Herbrüggen, N. Khaneja, J. M. Myers and A. F. Fahmy

    7. Chapter 6

      On Lossless Quantum Data Compression and Quantum Variable-Length Codes (pages 70–82)

      Rudolf Ahlswede and Ning Cai

    8. Chapter 7

      Entanglement Properties of Composite Quantum Systems (pages 83–99)

      K. Eckert, O. Gühne, F. Hulpke, P. Hyllus, J. Korbicz, J. Mompart, D. Bruß, M. Lewenstein and A. Sanpera

    9. Chapter 8

      Non-Classical Gaussian States in Noisy Environments (pages 100–112)

      Stefan Scheel and Dirk-Gunnar Welsch

    10. Chapter 9

      Quantum Estimation with Finite Resources (pages 113–124)

      Thorsten C. Bschorr, Dietmar G. Fischer, Holger Mack, Wolfgang P. Schleich and Matthias Freyberger

    11. Chapter 10

      Size Scaling of Decoherence Rates (pages 125–134)

      Christopher S. Maierle and Dieter Suter

    12. Chapter 11

      Reduced Collective Description of Spin-Ensembles (pages 135–149)

      Mathias Michel, Harry Schmidt, Friedemann Tonner and Günter Mahler

    13. Chapter 12

      Quantum Information Processing with Defects (pages 150–161)

      F. Jelezko and J. Wrachtrup

    14. Chapter 13

      Quantum Dynamics of Vortices and Vortex Qubits (pages 162–185)

      A. Wallraff, A. Kemp and A.V Ustinov

    15. Chapter 14

      Decoherence in Resonantly Driven Bistable Systems (pages 186–197)

      Sigmund Kohler and Peter Hänggi

    16. Chapter 15

      Entanglement and Decoherence in Cavity QED with a Trapped Ion (pages 198–208)

      Werner Vogel and Christian Di Fidio

    17. Chapter 16

      Quantum Information Processing with Ions Deterministically Coupled to an Optical Cavity (pages 209–222)

      Matthias Keller, Birgit Lange, Kazuhiro Hayasaka, Wolfgang Lange and Herbert Walther

    18. Chapter 17

      Strongly Coupled Atom–Cavity Systems (pages 223–236)

      Axel Kuhn, Markus Hennrich and Gerhard Rempe

    19. Chapter 18

      A Relaxation-Free Verification of the Quantum Zeno Paradox on an Individual Atom (pages 237–250)

      Ch. Balzer, Th. Hannemann, D. Reiß, Ch. Wunderlich, W. Neuhauser and P. E. Toschek

    20. Chapter 19

      Spin Resonance with Trapped Ions: Experiments and New Concepts (pages 251–264)

      K. Abich, Ch. Balzer, T. Hannemann, F. Mintert, W. Neuhauser, D. Reiß, P.E. Toschek and Ch. Wunderlich

    21. Chapter 20

      Controlled Single Neutral Atoms As Qubits (pages 265–274)

      V. Gomer, W. Alt, S. Kuhr, D. Schrader and D. Meschede

    22. Chapter 21

      Towards Quantum Logic with Cold Atoms in a CO2 Laser Optical Lattice (pages 275–286)

      G. Cennini, G. Ritt, C. Geckeler, R. Scheunemann and M. Weitz

    23. Chapter 22

      Quantum Information Processing with Atoms in Optical Micro-Structures (pages 287–297)

      R. Dumke, M. Volk, T. Müther, T. Buchkremer, W. Ertmer and G. Birkl

    24. Chapter 23

      Quantum Information Processing with Neutral Atoms on Atom Chips (pages 298–311)

      Peter Krüger, Albrecht Haase, Mauritz Andersson and Jörg Schmiedmayer

    25. Chapter 24

      Quantum Gates and Algorithms Operating on Molecular Vibrations (pages 312–326)

      Ulrike Troppmann, Carmen M. Tesch and Regina de Vivie-Riedle

    26. Chapter 25

      Fabrication and Measurement of Aluminum and Niobium Based Single-Electron Transistors and Charge Qubits (pages 327–337)

      Wolfram Krech, Detlef Born, Marián Mihalik, Miroslav Grajcar, Thomas Wagner and Uwe Hübner

    27. Chapter 26

      Quantum Dot Circuits for Quantum Computation (pages 338–352)

      R. H. Blick, A. K. Hüttel, A. W. Holleitner, L. Pescini and H. Lorenz

    28. Chapter 27

      Manipulation and Control of Individual Photons and Distant Atoms via Linear Optical Elements (pages 353–381)

      XuBo Zou and Wolfgang Mathis

    29. Chapter 28

      Conditional Linear Optical Networks (pages 382–392)

      Stefan Scheel

    30. Chapter 29

      Multiphoton Entanglement (pages 393–404)

      Mohamed Bourennane, Manfred Eibl, Sascha Gaertner, Nikolai Kiesel, Christian Kurtsiefer, Marek Żukowski and Harald Weinfurter

    31. Chapter 30

      Quantum Polarization for Continuous Variable Information Processing (pages 405–417)

      N. Korolkova

    32. Chapter 31

      A Quantum Optical XOR Gate (pages 418–424)

      H. Becker, K. Schmid, W. Dultz, W. Martienssen and H. Roskos

    33. Chapter 32

      Quantum Fiber Solitons – Generation, Entanglement, and Detection (pages 425–442)

      Gerd Leuchs, Natalia Korolkova, Oliver Glöck, Stefan Lorenz, Joel Heersink, Christine Silberhorn, Christoph Marquardt and Ulrik L. Andersen

    34. You have free access to this content
      Index (pages 443–449)

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