Verfügbarkeit: An introduction to quantum computing

An introduction to quantum computing:

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Bibliographische Detailangaben
Hauptverfasser:	Kaye, Philip (VerfasserIn), Laflamme, Raymond 1960- (VerfasserIn), Mosca, Michele (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Oxford [u.a.] Oxford Univ. Press 2007
Ausgabe:	1. published
Schlagworte:	Kwantumcomputers Quantum computers Quantencomputer Einführung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Hier auch später erschienene, unveränderte Nachdrucke
Beschreibung:	XI, 274 Seiten Diagramme
ISBN:	9780198570004 9780198570493 0198570007 019857049X

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adam_text	Contents Preface x Acknowledgements xi 1 INTRODUCTION AND BACKGROUND 1 1.1 Overview 1 1.2 Computers and the Strong Church-Turing Thesis 2 1.3 The Circuit Model of Computation 6 1.4 A Linear Algebra Formulation of the Circuit Model 8 1.5 Reversible Computation 12 1.6 A Preview of Quantum Physics 15 1.7 Quantum Physics and Computation 19 2 LINEAR ALGEBRA AND THE DIRAC NOTATION 21 2.1 The Dirac Notation and Hubert Spaces 21 2.2 Dual Vectors 23 2.3 Operators 27 2.4 The Spectral Theorem 30 2.5 Functions of Operators 32 2.6 Tensor Products 33 2.7 The Schmidt Decomposition Theorem 35 2.8 Some Comments on the Dirac Notation 37 3 QUBITS AND THE FRAMEWORK OF QUANTUM MECHANICS 38 3.1 The State of a Quantum System 38 3.2 Time-Evolution of a Closed System 43 3.3 Composite Systems 45 3.4 Measurement 48 vi CONTENTS 3.5 Mixed States and General Quantum Operations 53 3.5.1 Mixed States 53 3.5.2 Partial Trace 56 3.5.3 General Quantum Operations 59 4 A QUANTUM MODEL OF COMPUTATION 61 4.1 The Quantum Circuit Model 61 4.2 Quantum Gates 63 4.2.1 1-Qubit Gates 63 4.2.2 Controlled-i/ Gates 66 4.3 Universal Sets of Quantum Gates 68 4.4 Efficiency of Approximating Unitary Transformations 71 4.5 Implementing Measurements with Quantum Circuits 73 5 SUPERDENSE CODING AND QUANTUM TELEPORTATION 78 5.1 Superdense Coding 79 5.2 Quantum Teleportation 80 5.3 An Application of Quantum Teleportation 82 6 INTRODUCTORY QUANTUM ALGORITHMS 86 6.1 Probabilistic Versus Quantum Algorithms 86 6.2 Phase Kick-Back 91 6.3 The Deutsch Algorithm 94 6.4 The Deutsch- Jozsa Algorithm 99 6.5 Simon's Algorithm 103 7 ALGORITHMS WITH SUPERPOLYNOMIAL SPEED-UP 110 7.1 Quantum Phase Estimation and the Quantum Fourier Trans¬ form 110 7.1.1 Error Analysis for Estimating Arbitrary Phases 117 7.1.2 Periodic States 120 7.1.3 GCD, LCM, the Extended Euclidean Algorithm 124 7.2 Eigenvalue Estimation 125 CONTENTS vii 7.3 Finding-Orders 130 7.3.1 The Order-Finding Problem 130 7.3.2 Some Mathematical Preliminaries 131 7.3.3 The Eigenvalue Estimation Approach to Order Find¬ ing 134 7.3.4 Shor's Approach to Order Finding 139 7.4 Finding Discrete Logarithms 142 7.5 Hidden Subgroups 146 7.5.1 More on Quantum Fourier Transforms 147 7.5.2 Algorithm for the Finite Abelian Hidden Subgroup Problem 149 7.6 Related Algorithms and Techniques 151 8 ALGORITHMS BASED ON AMPLITUDE AMPLIFICATION 152 8.1 Grover's Quantum Search Algorithm 152 8.2 Amplitude Amplification 163 8.3 Quantum Amplitude Estimation and Quantum Counting 170 8.4 Searching Without Knowing the Success Probability 175 8.5 Related Algorithms and Techniques 178 9 QUANTUM COMPUTATIONAL COMPLEXITY THEORY AND LOWER BOUNDS 179 9.1 Computational Complexity 180 9.1.1 Language Recognition Problems and Complexity Classes 181 9.2 The Black-Box Model 185 9.2.1 State Distinguishability 187 9.3 Lower Bounds for Searching in the Black-Box Model: Hybrid Method 188 9.4 General Black-Box Lower Bounds 191 9.5 Polynomial Method 193 9.5.1 Applications to Lower Bounds 194 9.5.2 Examples of Polynomial Method Lower Bounds 196 viii CONTENTS 9.6 Block Sensitivity 197 9.6.1 Examples of Block Sensitivity Lower Bounds 197 9.7 Adversary Methods 198 9.7.1 Examples of Adversary Lower Bounds 200 9.7.2 Generalizations 203 10 QUANTUM ERROR CORRECTION 204 10.1 Classical Error Correction 204 10.1.1 The Error Model 205 10.1.2 Encoding 206 10.1.3 Error Recovery 207 10.2 The Classical Three-Bit Code 207 10.3 Fault Tolerance 211 10.4 Quantum Error Correction 212 10.4.1 Error Models for Quantum Computing 213 10.4.2 Encoding 216 10.4.3 Error Recovery 217 10.5 Three- and Nine-Qubit Quantum Codes 223 10.5.1 The Three-Qubit Code for Bit-Flip Errors 223 10.5.2 The Three-Qubit Code for Phase-Flip Errors 225 10.5.3 Quantum Error Correction Without Decoding 226 10.5.4 The Nine-Qubit Shor Code 230 10.6 Fault-Tolerant Quantum Computation 234 10.6.1 Concatenation of Codes and the Threshold Theorem 237 APPENDIX A 241 A.I Tools for Analysing Probabilistic Algorithms 241 A. 2 Solving the Discrete Logarithm Problem When the Order of α Is Composite 243 A.3 How Many Random Samples Are Needed to Generate a Group? 245 A.4 Finding r Given \| for Random к 247 A. 5 Adversary Method Lemma 248 CONTENTS ¡x Α. 6 Black-Boxes for Group Computations 250 A. 7 Computing Schmidt Decompositions 253 A. 8 General Measurements 255 A.9 Optimal Distinguishing of Two States 258 A. 9.1 A Simple Procedure 258 A.9.2 Optimality of This Simple Procedure 258 Bibliography 260 Index 270
adam_txt	Contents Preface x Acknowledgements xi 1 INTRODUCTION AND BACKGROUND 1 1.1 Overview 1 1.2 Computers and the Strong Church-Turing Thesis 2 1.3 The Circuit Model of Computation 6 1.4 A Linear Algebra Formulation of the Circuit Model 8 1.5 Reversible Computation 12 1.6 A Preview of Quantum Physics 15 1.7 Quantum Physics and Computation 19 2 LINEAR ALGEBRA AND THE DIRAC NOTATION 21 2.1 The Dirac Notation and Hubert Spaces 21 2.2 Dual Vectors 23 2.3 Operators 27 2.4 The Spectral Theorem 30 2.5 Functions of Operators 32 2.6 Tensor Products 33 2.7 The Schmidt Decomposition Theorem 35 2.8 Some Comments on the Dirac Notation 37 3 QUBITS AND THE FRAMEWORK OF QUANTUM MECHANICS 38 3.1 The State of a Quantum System 38 3.2 Time-Evolution of a Closed System 43 3.3 Composite Systems 45 3.4 Measurement 48 vi CONTENTS 3.5 Mixed States and General Quantum Operations 53 3.5.1 Mixed States 53 3.5.2 Partial Trace 56 3.5.3 General Quantum Operations 59 4 A QUANTUM MODEL OF COMPUTATION 61 4.1 The Quantum Circuit Model 61 4.2 Quantum Gates 63 4.2.1 1-Qubit Gates 63 4.2.2 Controlled-i/ Gates 66 4.3 Universal Sets of Quantum Gates 68 4.4 Efficiency of Approximating Unitary Transformations 71 4.5 Implementing Measurements with Quantum Circuits 73 5 SUPERDENSE CODING AND QUANTUM TELEPORTATION 78 5.1 Superdense Coding 79 5.2 Quantum Teleportation 80 5.3 An Application of Quantum Teleportation 82 6 INTRODUCTORY QUANTUM ALGORITHMS 86 6.1 Probabilistic Versus Quantum Algorithms 86 6.2 Phase Kick-Back 91 6.3 The Deutsch Algorithm 94 6.4 The Deutsch- Jozsa Algorithm 99 6.5 Simon's Algorithm 103 7 ALGORITHMS WITH SUPERPOLYNOMIAL SPEED-UP 110 7.1 Quantum Phase Estimation and the Quantum Fourier Trans¬ form 110 7.1.1 Error Analysis for Estimating Arbitrary Phases 117 7.1.2 Periodic States 120 7.1.3 GCD, LCM, the Extended Euclidean Algorithm 124 7.2 Eigenvalue Estimation 125 CONTENTS vii 7.3 Finding-Orders 130 7.3.1 The Order-Finding Problem 130 7.3.2 Some Mathematical Preliminaries 131 7.3.3 The Eigenvalue Estimation Approach to Order Find¬ ing 134 7.3.4 Shor's Approach to Order Finding 139 7.4 Finding Discrete Logarithms 142 7.5 Hidden Subgroups 146 7.5.1 More on Quantum Fourier Transforms 147 7.5.2 Algorithm for the Finite Abelian Hidden Subgroup Problem 149 7.6 Related Algorithms and Techniques 151 8 ALGORITHMS BASED ON AMPLITUDE AMPLIFICATION 152 8.1 Grover's Quantum Search Algorithm 152 8.2 Amplitude Amplification 163 8.3 Quantum Amplitude Estimation and Quantum Counting 170 8.4 Searching Without Knowing the Success Probability 175 8.5 Related Algorithms and Techniques 178 9 QUANTUM COMPUTATIONAL COMPLEXITY THEORY AND LOWER BOUNDS 179 9.1 Computational Complexity 180 9.1.1 Language Recognition Problems and Complexity Classes 181 9.2 The Black-Box Model 185 9.2.1 State Distinguishability 187 9.3 Lower Bounds for Searching in the Black-Box Model: Hybrid Method 188 9.4 General Black-Box Lower Bounds 191 9.5 Polynomial Method 193 9.5.1 Applications to Lower Bounds 194 9.5.2 Examples of Polynomial Method Lower Bounds 196 viii CONTENTS 9.6 Block Sensitivity 197 9.6.1 Examples of Block Sensitivity Lower Bounds 197 9.7 Adversary Methods 198 9.7.1 Examples of Adversary Lower Bounds 200 9.7.2 Generalizations 203 10 QUANTUM ERROR CORRECTION 204 10.1 Classical Error Correction 204 10.1.1 The Error Model 205 10.1.2 Encoding 206 10.1.3 Error Recovery 207 10.2 The Classical Three-Bit Code 207 10.3 Fault Tolerance 211 10.4 Quantum Error Correction 212 10.4.1 Error Models for Quantum Computing 213 10.4.2 Encoding 216 10.4.3 Error Recovery 217 10.5 Three- and Nine-Qubit Quantum Codes 223 10.5.1 The Three-Qubit Code for Bit-Flip Errors 223 10.5.2 The Three-Qubit Code for Phase-Flip Errors 225 10.5.3 Quantum Error Correction Without Decoding 226 10.5.4 The Nine-Qubit Shor Code 230 10.6 Fault-Tolerant Quantum Computation 234 10.6.1 Concatenation of Codes and the Threshold Theorem 237 APPENDIX A 241 A.I Tools for Analysing Probabilistic Algorithms 241 A. 2 Solving the Discrete Logarithm Problem When the Order of α Is Composite 243 A.3 How Many Random Samples Are Needed to Generate a Group? 245 A.4 Finding r Given \| for Random к 247 A. 5 Adversary Method Lemma 248 CONTENTS ¡x Α. 6 Black-Boxes for Group Computations 250 A. 7 Computing Schmidt Decompositions 253 A. 8 General Measurements 255 A.9 Optimal Distinguishing of Two States 258 A. 9.1 A Simple Procedure 258 A.9.2 Optimality of This Simple Procedure 258 Bibliography 260 Index 270
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title	An introduction to quantum computing
title_auth	An introduction to quantum computing
title_exact_search	An introduction to quantum computing
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title_full	An introduction to quantum computing Philip Kaye, Raymond Laflamme and Michele Mosca
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title_full_unstemmed	An introduction to quantum computing Philip Kaye, Raymond Laflamme and Michele Mosca
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topic_facet	Kwantumcomputers Quantum computers Quantencomputer Einführung
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