Verfügbarkeit: Quantum information

Quantum information: an overview

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Bibliographische Detailangaben
1. Verfasser:	Jaeger, Gregg (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	New York Springer 2007
Schlagworte:	Quantum computers Quantencomputer Quanteninformatik
Online-Zugang:	Beschreibung für Leser Inhaltsverzeichnis
Beschreibung:	Includes bibliographical references (p. [249]-270) and index
Beschreibung:	XVIII, 284 S. Ill.
ISBN:	0387357254 9780387357256

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adam_text	Contents Foreword ...................................................... vii Preface ........................................................ xi Acknowledgments ............................................. xiii 1 Qubits ..................................................... 1 1.1 Quantum state purity .................................... 5 1.2 The representation of qubits .............................. 8 1.3 Stokes parameters ....................................... 11 1.4 Single-qubit gates ....................................... 14 1.5 The double-slit experiment ............................... 18 1.6 The Mach-Zehnder interferometer ......................... 23 1.7 Quantum coherence and information processing ............. 25 2 Measurements and quantum operations .................... 29 2.1 The von Neumann classification of processes ................ 32 2.2 The Pauli classification of measurements ................... 34 2.3 Expectation values and the von Neumann projection ......... 35 2.4 The Lüders rule ......................................... 37 2.5 Reduced statistical operators .............................. 38 2.6 General quantum operations .............................. 39 2.7 Positive-operator-valued measures ......................... 41 3 Quantum nonlocality and interferometry .................. 45 3.1 Hidden variables and state completeness .................... 46 3.2 Von Neumann s no-go theorem .......................... 48 3.3 The Einstein-Podolsky-Rosen argument .................... 49 3.4 Gleason s theorem ....................................... 51 3.5 Bell inequalities ......................................... 52 3.6 Interferometrie complementarity ........................... 57 xvi Contents 3.7 The Pranson interferometer ............................... 61 3.8 Two-qubit quantum gates ................................ 63 4 Classical information and communication .................. 67 4.1 Communication channels ................................. 68 4.2 Shannon entropy ........................................ 70 4.3 Rényi entropy ........................................... 74 4.4 Coding ................................................. 74 4.5 Error correction ......................................... 77 4.6 Data compression ....................................... 78 4.7 Communication complexity ............................... 79 5 Quantum information ...................................... 81 5.1 Quantum entropy ....................................... 82 5.2 Quantum relative and conditional entropies ................. 84 5.3 Quantum mutual information ............................. 85 5.4 Fidelity and coherent information ......................... 86 5.5 Quantum Rényi and Tsallis entropies ...................... 88 6 Quantum entanglement .................................... 91 6.1 Basic definitions ......................................... 92 6.2 The Schmidt decomposition ............................... 94 6.3 Special bases and decompositions .......................... 95 6.4 Stokes parameters and entanglement ....................... 98 6.5 Partial transpose and reduction criteria .................... 99 6.6 The fundamental postulate .............................101 6.7 Entanglement monotones .................................102 6.8 Distillation and bound entanglement .......................104 6.9 Entanglement and majorization ...........................105 6.10 Concurrence ............................................106 6.11 Entanglement witnesses ..................................107 6.12 Entanglement as a resource ...............................108 6.13 The thermodynamic analogy ..............................109 6.14 Information and the foundations of physics .................112 6.15 The geometry of entanglement ............................114 6.16 Creating entangled photons ...............................115 7 Entangled multipartite systems ............................121 7.1 Stokes and correlation tensors .............................124 7.2 JV-tangle ................................................126 7.3 Generalized Schmidt decomposition ........................127 7.4 Lorentz-group isometries .................................127 7.5 Entanglement classes ....................................129 7.6 Algebraic invariants of multipartite systems .................131 7.7 Three-qubit states and residual tangle ......................133 Contents xvii 7.8 Three-qubit quantum logic gates ..........................135 7.9 States of higher qubit number .............................136 8 Quantum state and process estimation .....................139 8.1 Quantum state tomography ...............................140 8.2 Quantum process tomography .............................143 8.3 Direct estimation methods ................................144 9 Quantum communication ..................................147 9.1 Quantum channels .......................................148 9.2 Quantum channel capacities ..............................149 9.3 Holevo s theorem ........................................151 9.4 Discrimination of quantum states ..........................153 9.5 The no-cloning theorem ..................................156 9.6 Basic quantum channels ..................................157 9.7 The GHJW theorem .....................................159 9.8 Quantum dense coding ...................................160 9.9 Quantum teleportation ...................................162 9.10 Entanglement swapping ................................164 9.11 Entanglement purification ..............................165 9.12 Quantum data compression ...............................167 9.13 Quantum communication complexity .......................169 10 Quantum decoherence and its mitigation ..................171 10.1 Quantum decoherence ....................................172 10.2 Decoherence and mixtures ................................173 10.3 Decoherence-free subspaces ...............................174 10.4 Quantum coding, error detection, and correction ............175 10.5 The nine-qubit Shor code .................................179 10.6 Stabilizer codes .........................................181 10.7 Concatenation of quantum codes ..........................183 11 Quantum broadcasting, copying, and deleting ..............185 11.1 Quantum broadcasting ...................................185 11.2 Quantum copying .......................................186 11.3 Quantum deleting .......................................189 11.4 Landauer s principle .....................................190 12 Quantum key distribution .................................191 12.1 Cryptography and cryptosystems ..........................191 12.2 QKD systems ...........................................193 12.3 The BB84 (four-state) protocol ............................195 12.4 The E91 (Ekert) protocol .................................197 12.5 The B92 (two-state) protocol .............................198 12.6 The six-state protocol ....................................199 xviii Contents 12.7 Eavesdropping ..........................................199 12.8 Security proofs ..........................................201 13 Classical and quantum computing .........................203 13.1 Classical computing and computational complexity ..........204 13.2 Deterministic Turing machines ............................206 13.3 Probabilistic Turing machines .............................207 13.4 Multi-tape Turing machines ...............................208 13.5 Quantum Turing machines ................................209 13.6 Quantum computational complexity .......................211 13.7 Fault-tolerant quantum computing .........................214 13.8 Linear optical quantum computation .......................215 14 Quantum algorithms .......................................219 14.1 The Deutsch-Jozsa algorithm .............................220 14.2 The Grover search algorithm ..............................221 14.3 The Shor factoring algorithm .............................224 14.4 The Simon algorithm ....................................229 A Mathematical elements ....................................231 A.I Boolean algebra and Galois fields .........................231 A.2 Random variables .......................................232 A.3 Vector Spaces and Hubert space ...........................233 A.4 The standard quantum formalism .........................237 A.5 The Dirac notation ......................................237 A.6 Groups of transformations ................................239 A.7 Probability, lattices, and posets ...........................240 A.8 Projectors, correlations, and the Kochen-Specker theorem .... 242 A.9 Traditional quantum logic ................................243 В The quantum postulates ...................................245 B.I The standard postulates ..................................245 B.2 The Heisenberg-Robertson uncertainty relation .............247 B.3 Liouville space and open quantum systems ..................248 References .....................................................249 Index ..........................................................271
adam_txt	Contents Foreword . vii Preface . xi Acknowledgments . xiii 1 Qubits . 1 1.1 Quantum state purity . 5 1.2 The representation of qubits . 8 1.3 Stokes parameters . 11 1.4 Single-qubit gates . 14 1.5 The double-slit experiment . 18 1.6 The Mach-Zehnder interferometer . 23 1.7 Quantum coherence and information processing . 25 2 Measurements and quantum operations . 29 2.1 The von Neumann classification of processes . 32 2.2 The Pauli classification of measurements . 34 2.3 Expectation values and the von Neumann projection . 35 2.4 The Lüders rule . 37 2.5 Reduced statistical operators . 38 2.6 General quantum operations . 39 2.7 Positive-operator-valued measures . 41 3 Quantum nonlocality and interferometry . 45 3.1 Hidden variables and state completeness . 46 3.2 Von Neumann's "no-go" theorem . 48 3.3 The Einstein-Podolsky-Rosen argument . 49 3.4 Gleason's theorem . 51 3.5 Bell inequalities . 52 3.6 Interferometrie complementarity . 57 xvi Contents 3.7 The Pranson interferometer . 61 3.8 Two-qubit quantum gates . 63 4 Classical information and communication . 67 4.1 Communication channels . 68 4.2 Shannon entropy . 70 4.3 Rényi entropy . 74 4.4 Coding . 74 4.5 Error correction . 77 4.6 Data compression . 78 4.7 Communication complexity . 79 5 Quantum information . 81 5.1 Quantum entropy . 82 5.2 Quantum relative and conditional entropies . 84 5.3 Quantum mutual information . 85 5.4 Fidelity and coherent information . 86 5.5 Quantum Rényi and Tsallis entropies . 88 6 Quantum entanglement . 91 6.1 Basic definitions . 92 6.2 The Schmidt decomposition . 94 6.3 Special bases and decompositions . 95 6.4 Stokes parameters and entanglement . 98 6.5 Partial transpose and reduction criteria . 99 6.6 The "fundamental postulate" .101 6.7 Entanglement monotones .102 6.8 Distillation and bound entanglement .104 6.9 Entanglement and majorization .105 6.10 Concurrence .106 6.11 Entanglement witnesses .107 6.12 Entanglement as a resource .108 6.13 The thermodynamic analogy .109 6.14 Information and the foundations of physics .112 6.15 The geometry of entanglement .114 6.16 Creating entangled photons .115 7 Entangled multipartite systems .121 7.1 Stokes and correlation tensors .124 7.2 JV-tangle .126 7.3 Generalized Schmidt decomposition .127 7.4 Lorentz-group isometries .127 7.5 Entanglement classes .129 7.6 Algebraic invariants of multipartite systems .131 7.7 Three-qubit states and residual tangle .133 Contents xvii 7.8 Three-qubit quantum logic gates .135 7.9 States of higher qubit number .136 8 Quantum state and process estimation .139 8.1 Quantum state tomography .140 8.2 Quantum process tomography .143 8.3 Direct estimation methods .144 9 Quantum communication .147 9.1 Quantum channels .148 9.2 Quantum channel capacities .149 9.3 Holevo's theorem .151 9.4 Discrimination of quantum states .153 9.5 The no-cloning theorem .156 9.6 Basic quantum channels .157 9.7 The GHJW theorem .159 9.8 Quantum dense coding .160 9.9 Quantum teleportation .162 9.10 Entanglement "swapping" .164 9.11 Entanglement "purification" .165 9.12 Quantum data compression .167 9.13 Quantum communication complexity .169 10 Quantum decoherence and its mitigation .171 10.1 Quantum decoherence .172 10.2 Decoherence and mixtures .173 10.3 Decoherence-free subspaces .174 10.4 Quantum coding, error detection, and correction .175 10.5 The nine-qubit Shor code .179 10.6 Stabilizer codes .181 10.7 Concatenation of quantum codes .183 11 Quantum broadcasting, copying, and deleting .185 11.1 Quantum broadcasting .185 11.2 Quantum copying .186 11.3 Quantum deleting .189 11.4 Landauer's principle .190 12 Quantum key distribution .191 12.1 Cryptography and cryptosystems .191 12.2 QKD systems .193 12.3 The BB84 (four-state) protocol .195 12.4 The E91 (Ekert) protocol .197 12.5 The B92 (two-state) protocol .198 12.6 The six-state protocol .199 xviii Contents 12.7 Eavesdropping .199 12.8 Security proofs .201 13 Classical and quantum computing .203 13.1 Classical computing and computational complexity .204 13.2 Deterministic Turing machines .206 13.3 Probabilistic Turing machines .207 13.4 Multi-tape Turing machines .208 13.5 Quantum Turing machines .209 13.6 Quantum computational complexity .211 13.7 Fault-tolerant quantum computing .214 13.8 Linear optical quantum computation .215 14 Quantum algorithms .219 14.1 The Deutsch-Jozsa algorithm .220 14.2 The Grover search algorithm .221 14.3 The Shor factoring algorithm .224 14.4 The Simon algorithm .229 A Mathematical elements .231 A.I Boolean algebra and Galois fields .231 A.2 Random variables .232 A.3 Vector Spaces and Hubert space .233 A.4 The standard quantum formalism .237 A.5 The Dirac notation .237 A.6 Groups of transformations .239 A.7 Probability, lattices, and posets .240 A.8 Projectors, correlations, and the Kochen-Specker theorem . 242 A.9 Traditional quantum logic .243 В The quantum postulates .245 B.I The standard postulates .245 B.2 The Heisenberg-Robertson uncertainty relation .247 B.3 Liouville space and open quantum systems .248 References .249 Index .271
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