Quantum Computation and Quantum Error Prevention
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NOTICE -- This site is incomplete. There is no doubt that it has small mistakes and typos and the citations are far from complete. Also, this is a living document so a final form may never exist. Please email errors, typos, corrections and/or comments to Mark Byrd.
Please see the Notes and Credits for further information and a list of contributors.
Contents
Table of Contents: Part I -- The Basics
- Chapter 1 - Introduction
- Chapter 2 - Qubits and Collections of Qubits
- Chapter 3 - Physics of Quantum Information
- Chapter 4 - Entanglement
- Chapter 5 - Quantum Information: Basics and Simple Examples
- Chapter 6 - Noise in Quantum Systems
- Chapter 7 - Quantum Error Correcting Codes
- Chapter 8 - Decoherence-Free/Noiseless Subsystems
- Chapter 9 - Dynamical Decoupling Controls
- Chapter 10 - Fault-Tolerant Quantum Computing
- Chapter 11 - Hybrid Methods of Quantum Error Prevention
- Chapter 12 - Conclusions and Further Study
Table of Contents: Part II -- Advanced Topics
Appendices
- Appendix A - Basic Probability Concepts
- Appendix B - Complex Numbers
- Appendix C - Vectors and Linear Algebra
- Appendix D - Group Theory
- Appendix E - Density Operator: Extensions
- Appendix F - Classical Error Correcting Codes
- Appendix G - NOTES and CREDITS
- Appendix H: Topics in Quantum Mechanics
- Testing
- Simulation Testing
- Blog-not necessarily about quantum mechanics
Glossary
Index
Bibliography
Notation
Much of this material is based upon work supported by the National Science Foundation under Grant No. 0545798. However, any opinions, findings, and conclusions or recommendations expressed in this material are those of the author(s) and do not necessarily reflect the views of the National Science Foundation.