Verfügbarkeit: Quantum information processing and quantum error correction

Quantum information processing and quantum error correction: an engineering approach

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1. Verfasser:	Djordjevic, Ivan (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Amsterdam [u.a.] Elsevier, Academic Press 2012
Ausgabe:	1. ed.
Schlagworte:	Quanteninformatik Quantenoptik
Online-Zugang:	Inhaltsverzeichnis Klappentext
Beschreibung:	XIX, 576 S. graph. Darst.
ISBN:	0123854911 9780123854919

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Datensatz im Suchindex

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adam_text	Contents Preface .....................................................................................................................xv About the Author ....................................................................................................xix CHAPTER 1 Introduction ...........................................................................1 1.1 Photon Polarization ........................................................................4 1.2 The Concept of the Qubit ............................................................12 1.3 Spin-1/2 Systems ..........................................................................13 1.4 Quantum Gates and Quantum Information Processing ...............14 1.5 Quantum Teleportation .................................................................16 1.6 Quantum Error Correction Concepts ...........................................17 1.7 Quantum Key Distribution (QKD) ..............................................20 1.8 Organization of the Book .............................................................22 References ....................................................................................26 CHAPTER 2 Quantum Mechanics Fundamentals .......................................29 2.1 Introduction ..................................................................................30 2.2 Eigenkets as Base Kets ................................................................32 2.3 Matrix Representations ................................................................33 2.3.1 Photons ...............................................................................35 2.3.2 Spin-1/2 Systems ................................................................36 2.3.3 Hadamard Gate ..................................................................37 2.4 Quantum Measurements, Commutators, and Pauli Operators ......................................................................37 2.4.1 Commutators ......................................................................39 2.4.2 Pauli Operators ...................................................................41 2.5 Uncertainty Principle ...................................................................42 2.6 Density Operators .........................................................................44 2.7 Change of Basis ............................................................................47 2.7.1 Photon Polarization (Revisited) .........................................48 2.7.2 Diagonalization and Unitary Equivalent Observables .......50 2.8 Time Evolution — Schrödinger Equation ....................................52 2.9 Harmonic Oscillator .....................................................................55 2.10 Angular Momentum .....................................................................59 2.10.1 Commutation Relations ...................................................60 2.10.2 Matrix Representation of Angular Momentum ...............63 2.10.3 Coordinate Representation of OAM ................................65 2.10.4 Angular Momentum and Rotations .................................66 2.11 Spin-1/2 Systems ..........................................................................68 2.11.1 Pauli Operators (Revisited) ..............................................71 2.11.2 Density Operator for Spin-1/2 Systems ..........................74 2.11.3 Time Evolution of Spin-1/2 Systems ..............................74 vii viii Contents 2.12 Hydrogen-Like Atoms and Beyond .............................................79 2.13 Summary ......................................................................................83 2.14 Problems .......................................................................................84 References ....................................................................................88 CHAPTER 3 Quantum Circuits and Quantum Information Processing Fundamentals .....................................................91 3.1 Single-Qubit Operations ...............................................................91 3.2 Two-Qubit Operations ..................................................................96 3.3 Generalization to TV-Qubit Gates and Quantum Computation Fundamentals .......................................................103 3.4 Qubit Measurement (Revisited) .................................................106 3.5 Universal Quantum Gates ..........................................................108 3.6 Quantum Teleportation ...............................................................110 3.7 Summary .....................................................................................112 3.8 Problems .....................................................................................113 References ..................................................................................116 CHAPTER 4 Introduction to Quantum Information Processing ........................................................................119 4.1 Superposition Principle and Quantum Parallelism ....................120 4.2 No-Cloning Theorem .................................................................123 4.3 Distinguishing Quantum States ..................................................125 4.4 Quantum Entanglement ..............................................................126 4.4.1 Schmidt Decomposition ...................................................127 4.5 Operator-Sum Representation ....................................................131 4.6 Decoherence and Quantum Errors .............................................134 4.6.1 Quantum Errors and Noisy Quantum Channels ..............138 4.7 Conclusion ..................................................................................141 4.8 Problems .....................................................................................141 References ..................................................................................143 CHAPTER 5 Quantum Algorithms ...........................................................145 5.1 Quantum Parallelism (Revisited) ...............................................146 5.2 Deutsch and Deutsch— Jozsa Algorithms ...................................148 5.2.1 Deutsch Algorithm ...........................................................148 5.2.2 Deutsch— Jozsa Algorithm ...............................................150 5.3 Grover Search Algorithm ...........................................................151 5.4 Quantum Fourier Transform ......................................................155 5.5 The Period of a Function and Shor Factoring Algorithm .........159 5.5.1 Period of a Function .........................................................159 5.5.2 Solving the RSA Encryption Protocol .............................162 5.5.3 Shor Factoring Algorithm ................................................163 5.6 Simon s Algorithm .....................................................................165 Contents ix 5.7 Classical/Quantum Computing Complexities and Turing Machines..................................................................166 5.8 Summary .....................................................................................168 5.9 Problems.....................................................................................169 References ..................................................................................172 CHAPTER 6 Classical Error Correcting Codes ........................................175 6.1 Channel Coding Preliminaries ...................................................175 6.2 Linear Block Codes ....................................................................184 6.2.1 Generator Matrix for Linear Block Code ........................185 6.2.2 Parity-Check Matrix for Linear Block Code ...................186 6.2.3 Distance Properties of Linear Block Codes ....................188 6.2.4 Coding Gain .....................................................................189 6.2.5 Syndrome Decoding and Standard Array ........................191 6.2.6 Important Coding Bounds ................................................195 6.3 Cyclic Codes ..............................................................................196 6.4 Bose-Chaudhuri-Hocquenghem (BCH) Codes .......................203 6.4.1 Galois Fields .....................................................................203 6.4.2 The Structure and Decoding of BCH Codes ...................206 6.5 Reed-Solomon (RS) Codes, Concatenated Codes, and Product Codes ......................................................................212 6.6 Concluding Remarks ..................................................................216 6.7 Problems .....................................................................................217 References ..................................................................................223 CHAPTER 7 Quantum Error Correction ...................................................227 7.1 Pauli Operators (Revisited) ........................................................228 7.2 Quantum Error Correction Concepts .........................................231 7.2.1 Three-Qubit Rip Code .....................................................232 7.2.2 Three-Qubit Phase-Flip Code ..........................................235 7.2.3 Shor s Nine-Qubit Code ...................................................236 7.2.4 Stabilizer Code Concepts .................................................238 7.2.5 Relationship Between Quantum and Classical Codes ................................................................................240 7.2.6 Quantum Cyclic Codes ....................................................242 7.2.7 Calderbank-Shor-Steane (CSS) Codes .........................242 7.2.8 Quantum Codes Over GF(4) ............................................243 7.3 Quantum Error Correction .........................................................243 7.3.1 Redundancy and Quantum Error Correction ...................243 7.3.2 Stabilizer Group S ............................................................246 7.3.3 Quantum-Check Matrix and Syndrome Equation ...........247 7.3.4 Necessary and Sufficient Conditions for Quantum Error Correction Coding ..................................................249 Contents 7.3.5 A Quantum Stabilizer Code for a Phase-Flip Channel (Revisited) ..........................................................249 7.3.6 Distance Properties of Quantum Error Correction Codes ..............................................................251 7.3.7 Calderbank-Shor-Steane (CSS) Codes (Revisited) ........................................................................252 7.3.8 Encoding and Decoding Circuits of Quantum Stabilizer Codes ...............................................................254 7.4 Important Quantum Coding Bounds ..........................................257 7.4.1 Quantum Hamming Bound ..............................................257 7.4.2 Quantum Gilbert—Varshamov Bound ..............................258 7.4.3 Quantum Singleton Bound (Knill—Laflamme Bound) ..............................................................................259 7.4.4 Quantum Weight Enumerators and Quantum Mac Williams Identity .......................................................260 7.5 Quantum Operations (Superoperators) and Quantum Channel Models ..........................................................................262 7.5.1 Operator-Sum Representation ..........................................262 7.5.2 Depolarizing Channel ......................................................266 7.5.3 Amplitude Damping Channel ..........................................268 7.5.4 Generalized Amplitude Damping Channel .....................269 7.6 Summary .....................................................................................270 7.7 Problems .....................................................................................271 References ..................................................................................275 CHAPTER 8 Quantum Stabilizer Codes and Beyond ................................277 8.1 Stabilizer Codes ..........................................................................277 8.2 Encoded Operators .....................................................................283 8.3 Finite Geometry Interpretation ..................................................286 8.4 Standard Form of Stabilizer Codes ............................................290 8.5 Efficient Encoding and Decoding ..............................................294 8.5.1 Efficient Encoding ............................................................294 8.5.2 Efficient Decoding ...........................................................302 8.6 Nonbinary Stabilizer Codes .......................................................307 8.7 Subsystem Codes ........................................................................312 8.8 Entanglement-Assisted (EA) Quantum Codes ..........................320 8.9 Topological Codes ......................................................................323 8.10 Summary ....................................................................................329 8.11 Problems .....................................................................................329 References ..................................................................................333 Contents xi CHAPTER 9 Entanglement-Assisted Quantum Error Correction .........................................................................337 9.1 Entanglement-Assisted Quantum Error Correction Principles ....................................................................................338 9.2 Entanglement-Assisted Canonical Quantum Codes ..................339 9.3 General Entanglement-Assisted Quantum Codes ......................341 9.3.1 EA-QECCs Derived from Classical Quaternary and Binary Codes .............................................................343 9.4 Encoding and Decoding for Entanglement-Assisted Quantum Codes ..........................................................................347 9.5 Operator Quantum Error Correction Codes (Subsystem Codes) .....................................................................349 9.6 Entanglement-Assisted Operator Quantum Error Correction Coding (EA-OQECC) ..............................................352 9.6.1 EA-OQECCs Derived from Classical Binary and Quaternary Codes ......................................................355 9.7 Summary .....................................................................................356 9.8 Problems .....................................................................................357 References ..................................................................................360 CHAPTER 10 Quantum Low-Density Parity-Check Codes .........................363 10.1 Classical LDPC Codes ............................................................364 10.1.1 Large-Girth Quasi-Cyclic (QC) Binary LDPC Codes ................................................................366 10.1.2 Decoding of Binary LDPC Codes ..............................367 10.1.3 BER Performance of Binary LDPC Codes ................370 10.1.4 Nonbinary LDPC Codes .............................................372 10.1.5 LDPC Code Design .....................................................375 10.2 Dual-Containing Quantum LDPC Codes ................................379 10.3 Entanglement-Assisted Quantum LDPC Codes .....................385 10.4 Iterative Decoding of Quantum LDPC Codes ........................393 10.5 Summary ..................................................................................397 10.6 Problems ..................................................................................397 References ...............................................................................400 CHAPTER 11 Fault-Tolerant Quantum Error Correction and Fault-Tolerant Quantum Computing .............................405 11.1 Fault Tolerance Basics ............................................................406 11.2 Fault-Tolerant Quantum Computation Concepts ....................408 11.2.1 Fault-Tolerant Pauli Gates ..........................................408 11.2.2 Fault-Tolerant Hadamard Gate ....................................408 11.2.3 Fault-Tolerant Phase Gate (P) .....................................409 xii Contents 11.2.4 Fault-Tolerant CNOT Gate .........................................410 11.2.5 Fault-Tolerant тг/8 (Τ) Gate .........................................410 11.2.6 Fault-Tolerant Measurement .......................................411 11.2.7 Fault-Tolerant State Preparation .................................412 11.2.8 Fault-Tolerant Measurement of Stabilizer Generators ....................................................................414 11.3 Fault-Tolerant Quantum Error Correction ..............................414 11.3.1 Fault-Tolerant Syndrome Extraction ...........................415 11.3.2 Fault-Tolerant Encoded Operations ............................423 11.3.3 Measurement Protocol ................................................429 11.3.4 Fault-Tolerant Stabilizer Codes ..................................432 11.3.5 The [5,1,3] Fault-Tolerant Stabilizer Code .................440 11.4 Fault-Tolerant Quantum Computation ....................................444 11.4.1 Fault-Tolerant Toffoli Gate .........................................444 11.5 Accuracy Threshold Theorem .................................................449 11.6 Summary ..................................................................................452 11.7 Problems ..................................................................................452 References ...............................................................................455 CHAPTER 12 Quantum Information Theory .............................................457 12.1 Entropy ....................................................................................458 12.1.1 Shannon Entropy .........................................................458 12.1.2 Von Neumann Entropy ................................................461 12.2 Holevo Information, Accessible Information, and Holevo Bound ...................................................................467 12.3 Data Compression ...................................................................471 12.3.1 Shannon s Noiseless Channel Coding Theorem .........471 12.3.2 Schumacher s Noiseless Quantum Channel Coding Theorem ..........................................................474 12.4 Holevo-Schumacher-Westmoreland (HSW) Theorem ........481 12.5 Conclusion ...............................................................................489 12.6 Problems ..................................................................................489 References ...............................................................................491 CHAPTER 13 Physical Implementations of Quantum Information Processing ....................................................493 13.1 Physical Implementation Basics .............................................493 13.2 Nuclear Magnetic Resonance (NMR) in Quantum Information Processing ...........................................495 13.3 Trapped Ions in Quantum Information Processing .................503 13.4 Photonic Quantum Implementations .......................................511 13.4.1 Bulky Optics Implementation .....................................511 13.4.2 Integrated Optics Implementation ...............................519 Contents xiii 13.5 Photonic Implementation of Quantum Relay .........................527 13.6 Implementation of Quantum Encoders and Decoders............529 13.7 Cavity Quantum Electrodynamics (CQED)-Based Quantum Information Processing...........................................536 13.8 Quantum Dots in Quantum Information Processing..............541 13.9 Summary ..................................................................................544 13.10 Problems..................................................................................544 References ...............................................................................546 Appendix................................................................................................................551 Index......................................................................................................................569 Communications Engineering Quantum Information Processing and Quantum Error Correction An Engineering Approach Ivan Djordjevic Quantum Information Processing and Quantum Error Correction is a self-contained, tutorial-based introduction to quantum information, quantum computation, and quantum error- correction. This book provides all the essential principles needed to design and implement quantum electronic and photonic circuits. Numerous examples and problems from a wide area of application are given to show how the principles can be implemented in practice. This book is ideal for the electronics, photonics and computer engineer who requires an easy- to-understand foundation on the principles of quantum information processing and quantum error correction, together with insight into how to develop quantum electronic and photonic circuits. Unique Features • Covers both quantum information processing and quantum error correction - everything in one book that the engineer needs to understand and implement quantum-level circuits. > Gives an intuitive understanding by not assuming knowledge of quantum mechanics. • In-depth coverage of the design and implementation of quantum information processing and quantum error correction circuits. ι Provides the right balance among the quantum mechanics, quantum error correction, quantum computing and quantum comrnumcation. Ivan Djordjevic is an Assistant Professor in the Department of Electrical and Computer Engineering of College of Engineering, University of Arizona, with a joint appointment in the College of Optical Sciences. His current research interests include optical networks, error control coding, constrained coding, coded modulation, turbo equalization, OFDM applications, and quantum error correction. ISBN 978-0 ELSEVIER ACADEMIC PRESS An imprint of Elsevier store.elsevier.com
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title	Quantum information processing and quantum error correction an engineering approach
title_auth	Quantum information processing and quantum error correction an engineering approach
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title_full	Quantum information processing and quantum error correction an engineering approach Ivan Djordjevic
title_fullStr	Quantum information processing and quantum error correction an engineering approach Ivan Djordjevic
title_full_unstemmed	Quantum information processing and quantum error correction an engineering approach Ivan Djordjevic
title_short	Quantum information processing and quantum error correction
title_sort	quantum information processing and quantum error correction an engineering approach
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topic_facet	Quanteninformatik Quantenoptik
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