Verfügbarkeit: Quantum coherence

Quantum coherence: from quarks to solids

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Bibliographische Detailangaben
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin ; Heidelberg ; New York Springer 2006
Schriftenreihe:	Lecture notes in physics 689
Schlagworte:	Cohérence (Physique nucléaire) - Congrès Théorie quantique - Congrès Quantentheorie Coherence (Nuclear physics) Quantum theory Kohärenz Quantenmechanisches System Konferenzschrift > 2004 > Schladming
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	Literaturangaben
Beschreibung:	XIV, 189 S. Ill., graph. Darst. 24 cm
ISBN:	9783540300854 3540300856

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Datensatz im Suchindex

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adam_text	Contents Entanglement, Bell Inequalities and Decoherence in Particle Physics R.A. Bertimann................................................ 1 1 Introduction ................................................ 1 1.1 Particle Physics ........................................ 2 2 QM of íí-mesons ............................................ 3 2.1 Strangeness ............................................ 3 2.2 CP Violation ........................................... 4 2.3 Strangeness Oscillation .................................. 4 2.4 Regeneration of Ks ..................................... 5 3 Analogies and Quasi-Spin .................................... 6 4 Time Evolution - Unitarity ................................... 7 5 Bell Inequalities for Spin-ì Particles ........................... 9 6 Bell Inequalities for .ŕf -mesons ................................ 11 6.1 Analogies and Differences ................................ 12 6.2 Bell-CHSH Inequality - General Form ..................... 13 6.3 Bell Inequality for Time Variation ........................ 14 6.4 Bell Inequality for Quasi-Spin States - CP Violation ........ 15 7 Decoherence in Entangled К°Ќ° System ....................... 18 7.1 Density Matrix ......................................... 19 7.2 Model ................................................. 21 7.3 Entangled Kaons ....................................... 22 7.4 Measurement ........................................... 23 7.5 Experiment ............................................ 24 8 Connection to Phenomenological Model ........................ 26 9 Entanglement Loss - Decoherence ............................. 28 9.1 Von Neumann Entropy .................................. 29 9.2 Separability ............................................ 30 9.3 Entanglement of Formation and Concurrence ............... 33 10 Outlook .................................................... 36 References ..................................................... 41 X Contents Quantum Gates and Decoherence S. Scheel, J.K. Pachos, E. A. Hinds and P. L. Knight ................ 47 1 Introduction ................................................ 47 1.1 Why Quantum Information Processing? ................... 47 1.2 Quantum Gates vs. Classical Gates ....................... 48 2 Atomic Realisation - Atom Chips and the Mott Transition in Optical Lattices ........................................... 51 2.1 Bose-Einstein Condensates and the Mott Transition ........ 51 2.2 Quantum Computation with a ID Optical Lattice .......... 54 2.3 Experimental Realization with Atom Chips ................ 58 3 Photonic Realisation - Passive Linear Optics and Projective Measurements ................................. 60 3.1 Qubit Encoding and Single-Qubit Operations .............. 60 3.2 Measurement-Induced Nonlinearities ...................... 61 3.3 Construction of Simple Quantum Gates ................... 64 3.4 Multi-Mode Gates ...................................... 66 3.5 Conditional Dynamics and Scaling of Success Probabilities ... 67 4 Decoherence Mechanisms - QED in Causal Dielectric Media .................................... 69 4.1 Decoherence Mechanisms Affecting Atoms and Photons ...... 69 4.2 Field Quantisation in Causal Media ....................... 71 4.3 Thermally Induced Spin Flips Near Metallic Wires .......... 74 4.4 Imperfect Passive Optical Elements ....................... 77 References ..................................................... 80 Spin-Based Quantum Dot Quantum Computing X. Ни ......................................................... 83 1 Introduction ................................................ 83 2 General Features of the Quantum Dot Quantum Computing Schemes .............. 84 2.1 Classification of the QC Schemes ......................... 84 2.2 GaAs Quantum Dot QC Architecture ..................... 86 2.3 Si Quantum Dot QC Architecture ........................ 86 2.4 Si Donor Nuclear Spin QC Architecture ................... 87 2.5 Si Donor Electron Spin QC Architecture ................... 88 3 Electron Spin Coherence in Semiconductors ..................... 89 3.1 Spin Decoherence Channels in Semiconductors .............. 91 3.2 Spectral Diffusion for Electron Spins ...................... 92 4 Spin Manipulations and Exchange ............................. 94 4.1 Spin Hamiltonian in a GaAs Double Quantum Dot: Coulomb Interaction and Pauli Principle ................... 94 4.2 Implications of Si Conduction Band Structure to Electron Exchange ................................... 99 4.3 Single Spin Detection Schemes ........................... 103 Contents XI 4.4 Approaches to Generate and Detect Electron Spin Entanglement in Quantum Dots ... 104 5 Current Experimental Status ................................. 105 5.1 Single Electron Trapping in Horizontal QDs ................ 105 5.2 Single Spin Detection ................................... 106 5.3 Electron-Nuclear Spin Interaction in QDs .................. 107 5.4 Fabrication of Donor Arrays in Si ......................... 108 6 Summary ................................................... 108 References ..................................................... 109 Microscopic Theory of Coherent Semiconductor Optics T. Meier and S. W. Koch ......................................... 115 1 Introduction ................................................ 115 2 Semiclassica] Theory ......................................... 118 3 Time-Dependent Hartree-Fock Approximation .................. 119 3.1 Excitonic Linear Absorption Spectra in Different Dimensions .................................. 122 4 Many-Body Coulomb Correlations ............................. 125 4.1 Second-Order Born Approximation ........................ 125 4.2 Density-Dependent Exciton Saturation and Broadening ...... 129 4.3 Dynamics-Controlled Truncation Scheme: Coherent x^-Limit ..................................... 132 4.4 Signatures of Coherent Four-Particle Correlations in χ 3 .... 140 4.5 Dynamics-Controlled Truncation Scheme: Coherent x(5)-Limit ..................................... 145 4.6 Signatures of Coherent Four-Particle Correlations Up to χ 5 . 145 5 Conclusions and Outlook ..................................... 148 References ..................................................... 150 Exciton and Polariton Condensation D. Porras, J. Fernandez-Rossier and С Tejedor.................... 153 1 Introduction ................................................ 153 1.1 Coherence ............................................. 154 1.2 Condensation .......................................... 156 1.3 Bosonic Limit of Excitons ................................ 156 2 Exciton Condensation: Standard Theory ....................... 157 2.1 Non-Interacting Bosons .................................. 157 2.2 Weakly Interacting Bosons ............................... 158 2.3 Interacting Electron-Hole Pairs: Excitonic Insulator ......... 159 2.4 Electron-Hole Liquid .................................... 164 3 Emission of Light ........................................... 164 4 Magnetoexcitons ............................................ 167 5 Multicomponent Condensates ................................ 168 5.1 Phase Diagram ......................................... 168 5.2 Coherence Effects ....................................... 170 XII Contents 6 Polariton Condensation ......................................172 6.1 Polariton Dynamics .....................................173 6.2 Evolution of the Polariton Distribution: Macroscopic Occupation .................................178 7 Polariton Laser .............................................180 7.1 Equation of Motion for the Density Matrix .................181 7.2 Emission Spectrum .....................................182 7.3 Related Work ..........................................185 8 Summary ...................................................186 References .....................................................187
adam_txt	Contents Entanglement, Bell Inequalities and Decoherence in Particle Physics R.A. Bertimann. 1 1 Introduction . 1 1.1 Particle Physics . 2 2 QM of íí-mesons . 3 2.1 Strangeness . 3 2.2 CP Violation . 4 2.3 Strangeness Oscillation . 4 2.4 Regeneration of Ks . 5 3 Analogies and Quasi-Spin . 6 4 Time Evolution - Unitarity . 7 5 Bell Inequalities for Spin-ì Particles . 9 6 Bell Inequalities for .ŕf -mesons . 11 6.1 Analogies and Differences . 12 6.2 Bell-CHSH Inequality - General Form . 13 6.3 Bell Inequality for Time Variation . 14 6.4 Bell Inequality for Quasi-Spin States - CP Violation . 15 7 Decoherence in Entangled К°Ќ° System . 18 7.1 Density Matrix . 19 7.2 Model . 21 7.3 Entangled Kaons . 22 7.4 Measurement . 23 7.5 Experiment . 24 8 Connection to Phenomenological Model . 26 9 Entanglement Loss - Decoherence . 28 9.1 Von Neumann Entropy . 29 9.2 Separability . 30 9.3 Entanglement of Formation and Concurrence . 33 10 Outlook . 36 References . 41 X Contents Quantum Gates and Decoherence S. Scheel, J.K. Pachos, E. A. Hinds and P. L. Knight . 47 1 Introduction . 47 1.1 Why Quantum Information Processing? . 47 1.2 Quantum Gates vs. Classical Gates . 48 2 Atomic Realisation - Atom Chips and the Mott Transition in Optical Lattices . 51 2.1 Bose-Einstein Condensates and the Mott Transition . 51 2.2 Quantum Computation with a ID Optical Lattice . 54 2.3 Experimental Realization with Atom Chips . 58 3 Photonic Realisation - Passive Linear Optics and Projective Measurements . 60 3.1 Qubit Encoding and Single-Qubit Operations . 60 3.2 Measurement-Induced Nonlinearities . 61 3.3 Construction of Simple Quantum Gates . 64 3.4 Multi-Mode Gates . 66 3.5 Conditional Dynamics and Scaling of Success Probabilities . 67 4 Decoherence Mechanisms - QED in Causal Dielectric Media . 69 4.1 Decoherence Mechanisms Affecting Atoms and Photons . 69 4.2 Field Quantisation in Causal Media . 71 4.3 Thermally Induced Spin Flips Near Metallic Wires . 74 4.4 Imperfect Passive Optical Elements . 77 References . 80 Spin-Based Quantum Dot Quantum Computing X. Ни . 83 1 Introduction . 83 2 General Features of the Quantum Dot Quantum Computing Schemes . 84 2.1 Classification of the QC Schemes . 84 2.2 GaAs Quantum Dot QC Architecture . 86 2.3 Si Quantum Dot QC Architecture . 86 2.4 Si Donor Nuclear Spin QC Architecture . 87 2.5 Si Donor Electron Spin QC Architecture . 88 3 Electron Spin Coherence in Semiconductors . 89 3.1 Spin Decoherence Channels in Semiconductors . 91 3.2 Spectral Diffusion for Electron Spins . 92 4 Spin Manipulations and Exchange . 94 4.1 Spin Hamiltonian in a GaAs Double Quantum Dot: Coulomb Interaction and Pauli Principle . 94 4.2 Implications of Si Conduction Band Structure to Electron Exchange . 99 4.3 Single Spin Detection Schemes . 103 Contents XI 4.4 Approaches to Generate and Detect Electron Spin Entanglement in Quantum Dots . 104 5 Current Experimental Status . 105 5.1 Single Electron Trapping in Horizontal QDs . 105 5.2 Single Spin Detection . 106 5.3 Electron-Nuclear Spin Interaction in QDs . 107 5.4 Fabrication of Donor Arrays in Si . 108 6 Summary . 108 References . 109 Microscopic Theory of Coherent Semiconductor Optics T. Meier and S. W. Koch . 115 1 Introduction . 115 2 Semiclassica] Theory . 118 3 Time-Dependent Hartree-Fock Approximation . 119 3.1 Excitonic Linear Absorption Spectra in Different Dimensions . 122 4 Many-Body Coulomb Correlations . 125 4.1 Second-Order Born Approximation . 125 4.2 Density-Dependent Exciton Saturation and Broadening . 129 4.3 Dynamics-Controlled Truncation Scheme: Coherent x^-Limit . 132 4.4 Signatures of Coherent Four-Particle Correlations in χ'3' . 140 4.5 Dynamics-Controlled Truncation Scheme: Coherent x(5)-Limit . 145 4.6 Signatures of Coherent Four-Particle Correlations Up to χ'5' . 145 5 Conclusions and Outlook . 148 References . 150 Exciton and Polariton Condensation D. Porras, J. Fernandez-Rossier and С Tejedor. 153 1 Introduction . 153 1.1 Coherence . 154 1.2 Condensation . 156 1.3 Bosonic Limit of Excitons . 156 2 Exciton Condensation: Standard Theory . 157 2.1 Non-Interacting Bosons . 157 2.2 Weakly Interacting Bosons . 158 2.3 Interacting Electron-Hole Pairs: Excitonic Insulator . 159 2.4 Electron-Hole Liquid . 164 3 Emission of Light . 164 4 Magnetoexcitons . 167 5 Multicomponent Condensates . 168 5.1 Phase Diagram . 168 5.2 Coherence Effects . 170 XII Contents 6 Polariton Condensation .172 6.1 Polariton Dynamics .173 6.2 Evolution of the Polariton Distribution: Macroscopic Occupation .178 7 Polariton Laser .180 7.1 Equation of Motion for the Density Matrix .181 7.2 Emission Spectrum .182 7.3 Related Work .185 8 Summary .186 References .187
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spelling	Quantum coherence from quarks to solids W. Pötz ... (eds.) Berlin ; Heidelberg ; New York Springer 2006 XIV, 189 S. Ill., graph. Darst. 24 cm txt rdacontent n rdamedia nc rdacarrier Lecture notes in physics 689 Literaturangaben Cohérence (Physique nucléaire) - Congrès Théorie quantique - Congrès Quantentheorie Coherence (Nuclear physics) Quantum theory Kohärenz (DE-588)4139923-7 gnd rswk-swf Quantenmechanisches System (DE-588)4300046-0 gnd rswk-swf (DE-588)1071861417 Konferenzschrift 2004 Schladming gnd-content Quantenmechanisches System (DE-588)4300046-0 s Kohärenz (DE-588)4139923-7 s DE-604 Pötz, Walter Sonstige (DE-588)131399322 oth Lecture notes in physics 689 (DE-604)BV000003166 689 text/html http://deposit.dnb.de/cgi-bin/dokserv?id=2704545&prov=M&dok_var=1&dok_ext=htm Inhaltstext Digitalisierung TU Muenchen application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014842658&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Quantum coherence from quarks to solids Lecture notes in physics Cohérence (Physique nucléaire) - Congrès Théorie quantique - Congrès Quantentheorie Coherence (Nuclear physics) Quantum theory Kohärenz (DE-588)4139923-7 gnd Quantenmechanisches System (DE-588)4300046-0 gnd
subject_GND	(DE-588)4139923-7 (DE-588)4300046-0 (DE-588)1071861417
title	Quantum coherence from quarks to solids
title_auth	Quantum coherence from quarks to solids
title_exact_search	Quantum coherence from quarks to solids
title_exact_search_txtP	Quantum coherence from quarks to solids
title_full	Quantum coherence from quarks to solids W. Pötz ... (eds.)
title_fullStr	Quantum coherence from quarks to solids W. Pötz ... (eds.)
title_full_unstemmed	Quantum coherence from quarks to solids W. Pötz ... (eds.)
title_short	Quantum coherence
title_sort	quantum coherence from quarks to solids
title_sub	from quarks to solids
topic	Cohérence (Physique nucléaire) - Congrès Théorie quantique - Congrès Quantentheorie Coherence (Nuclear physics) Quantum theory Kohärenz (DE-588)4139923-7 gnd Quantenmechanisches System (DE-588)4300046-0 gnd
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work_keys_str_mv	AT potzwalter quantumcoherencefromquarkstosolids

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