Quantum Error Correction Lidar Brun Hardback Cambridge University Press

Description: Quantum Error Correction Focusing on methods for quantum error correction, this book is invaluable for graduate students and experts in quantum information science. Daniel A. Lidar (Edited by), Todd A. Brun (Edited by) 9780521897877, Cambridge University Press Hardback, published 12 September 2013 690 pages 25.2 x 17.8 x 4.2 cm, 1.35 kg Quantum computation and information is one of the most exciting developments in science and technology of the last twenty years. To achieve large scale quantum computers and communication networks it is essential not only to overcome noise in stored quantum information, but also in general faulty quantum operations. Scalable quantum computers require a far-reaching theory of fault-tolerant quantum computation. This comprehensive text, written by leading experts in the field, focuses on quantum error correction and thoroughly covers the theory as well as experimental and practical issues. The book is not limited to a single approach, but reviews many different methods to control quantum errors, including topological codes, dynamical decoupling and decoherence-free subspaces. Basic subjects as well as advanced theory and a survey of topics from cutting-edge research make this book invaluable both as a pedagogical introduction at the graduate level and as a reference for experts in quantum information science. Prologue Preface Part I. Background: 1. Introduction to decoherence and noise in open quantum systems Daniel Lidar and Todd Brun 2. Introduction to quantum error correction Dave Bacon 3. Introduction to decoherence-free subspaces and noiseless subsystems Daniel Lidar 4. Introduction to quantum dynamical decoupling Lorenza Viola 5. Introduction to quantum fault tolerance Panos Aliferis Part II. Generalized Approaches to Quantum Error Correction: 6. Operator quantum error correction David Kribs and David Poulin 7. Entanglement-assisted quantum error-correcting codes Todd Brun and Min-Hsiu Hsieh 8. Continuous-time quantum error correction Ognyan Oreshkov Part III. Advanced Quantum Codes: 9. Quantum convolutional codes Mark Wilde 10. Non-additive quantum codes Markus Grassl and Martin Rötteler 11. Iterative quantum coding systems David Poulin 12. Algebraic quantum coding theory Andreas Klappenecker 13. Optimization-based quantum error correction Andrew Fletcher Part IV. Advanced Dynamical Decoupling: 14. High order dynamical decoupling Zhen-Yu Wang and Ren-Bao Liu 15. Combinatorial approaches to dynamical decoupling Martin Rötteler and Pawel Wocjan Part V. Alternative Quantum Computation Approaches: 16. Holonomic quantum computation Paolo Zanardi 17. Fault tolerance for holonomic quantum computation Ognyan Oreshkov, Todd Brun and Daniel Lidar 18. Fault tolerant measurement-based quantum computing Debbie Leung Part VI. Topological Methods: 19. Topological codes Héctor Bombín 20. Fault tolerant topological cluster state quantum computing Austin Fowler and Kovid Goyal Part VII. Applications and Implementations: 21. Experimental quantum error correction Dave Bacon 22. Experimental dynamical decoupling Lorenza Viola 23. Architectures Jacob Taylor 24. Error correction in quantum communication Mark Wilde Part VIII. Critical Evaluation of Fault Tolerance: 25. Hamiltonian methods in QEC and fault tolerance Eduardo Novais, Eduardo Mucciolo and Harold Baranger 26. Critique of fault-tolerant quantum information processing Robert Alicki References Index. Subject Areas: Quantum physics [quantum mechanics & quantum field theory PHQ], Physics [PH], Mathematics & science [P]

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