Verfügbarkeit: Quantum optics

Quantum optics:

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Hauptverfasser:	Garrison, John C. (VerfasserIn), Chiao, Raymond Y. 1940- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Oxford [u.a.] Oxford Univ. Press 2008
Ausgabe:	1. publ.
Schriftenreihe:	Oxford graduate texts
Schlagworte:	Optique quantique Quantum optics Lehrbuch Quantenoptik
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Hier auch später erschienene, unveränderte Nachdrucke
Beschreibung:	XIII, 716 S. graph. Darst.
ISBN:	9780198508861

Internformat

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Datensatz im Suchindex

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adam_text	Contents Introduction 1 1 The quantum nature of light 3 1.1 The early experiments 5 1.2 Photons 13 1.3 Are photons necessary? 20 1.4 Indivisibility of photons 24 1.5 Spontaneous down-conversion light source 28 1.6 Silicon avalanche-photodiode photon counters 29 1.7 The quantum theory of light 29 1.8 Exercises 30 2 Quantization of cavity modes 32 2.1 Quantization of cavity modes 32 2.2 Normal ordering and zero-point energy 47 2.3 States in quantum theory 48 2.4 Mixed states of the electromagnetic field 55 2.5 Vacuum fluctuations 60 2.6 The Casimir effect 62 2.7 Exercises 65 3 Field quantization 69 3.1 Field quantization in the vacuum 69 3.2 The Heisenberg picture 83 3.3 Field quantization in passive linear media 87 3.4 Electromagnetic angular momentum* 100 3.5 Wave packet quantization* 103 3.6 Photon localizability* 106 3.7 Exercises 109 4 Interaction of light with matter 111 4.1 Semiclassical electrodynamics 111 4.2 Quantum electrodynamics 113 4.3 Quantum Maxwell s equations 117 4.4 Parity and time reversal* 118 4.5 Stationary density operators 121 4.6 Positive- and negative-frequency parts for interacting fields 122 4.7 Multi-time correlation functions 123 4.8 The interaction picture 124 4.9 Interaction of light with atoms 130 χ Contents 4.10 Exercises 145 5 Coherent states 148 5.1 Quasiclassical states for radiation oscillators 148 5.2 Sources of coherent states 153 5.3 Experimental evidence for Poissonian statistics 157 5.4 Properties of coherent states 161 5.5 Multimode coherent states 167 5.6 Phase space description of quantum optics 172 5.7 Gaussian states* 187 5.8 Exercises 190 6 Entangled states 193 6.1 Einstein-Podolsky-Rosen states 193 6.2 Schrödinger s concept of entangled states 194 6.3 Extensions of the notion of entanglement 195 6.4 Entanglement for distinguishable particles 200 6.5 Entanglement for identical particles 205 6.6 Entanglement for photons 210 6.7 Exercises 216 7 Paraxial quantum optics 218 7.1 Classical paraxial optics 219 7.2 Paraxial states 219 7.3 The slowly-varying envelope operator 223 7.4 Gaussian beams and pulses 226 7.5 The paraxial expansion* 228 7.6 Paraxial wave packets* 229 7.7 Angular momentum* 230 7.8 Approximate photon localizability* 232 7.9 Exercises 234 8 Linear optical devices 237 8.1 Classical scattering 237 8.2 Quantum scattering 242 8.3 Paraxial optical elements 245 8.4 The beam splitter 247 8.5 Y-junctions 254 8.6 Isolators and circulators 255 8.7 Stops 260 8.8 Exercises 262 9 Photon detection 265 9.1 Primary photon detection 265 9.2 Postdetection signal processing 280 9.3 Heterodyne and homodyne detection 290 9.4 Exercises 305 Contents xi 10 Experiments in linear optics 307 10.1 Single-photon interference 307 10.2 Two-photon interference 315 10.3 Single-photon interference revisited* 333 10.4 Tunneling time measurements* 337 10.5 The meaning of causality in quantum optics* 343 10.6 Interaction-free measurements* 345 10.7 Exercises 348 11 Coherent interaction of light with atoms 350 11.1 Resonant wave approximation 350 11.2 Spontaneous emission II 357 11.3 The semiclassical limit 369 11.4 Exercises 379 12 Cavity quantum electrodynamics 381 12.1 The Jaynes-Cummings model 381 12.2 Collapses and revivals 384 12.3 The micromaser 387 12.4 Exercises 390 13 Nonlinear quantum optics 391 13.1 The atomic polarization 391 13.2 Weakly nonlinear media 393 13.3 Three-photon interactions 399 13.4 Four-photon interactions 412 13.5 Exercises 418 14 Quantum noise and dissipation 420 14.1 The world as sample and environment 420 14.2 Photons in a lossy cavity 428 14.3 The input-output method 435 14.4 Noise and dissipation for atoms 442 14.5 Incoherent pumping 447 14.6 The fluctuation dissipation theorem* 450 14.7 Quantum regression* 454 14.8 Photon bunching* 456 14.9 Resonance fluorescence* 457 14.10 Exercises 466 15 Nonclassical states of light 470 15.1 Squeezed states 470 15.2 Theory of squeezed-light generation* 485 15.3 Experimental squeezed-light generation 492 15.4 Number states 495 15.5 Exercises 497 16 Linear optical amplifiers* 499 xii Contents 16.1 General properties of linear amplifiers 499 16.2 Regenerative amplifiers 502 16.3 Traveling-wave amplifiers 510 16.4 General description of linear amplifiers 516 16.5 Noise limits for linear amplifiers 523 16.6 Exercises 527 17 Quantum tomography 529 17.1 Classical tomography 529 17.2 Optical homodyne tomography 532 17.3 Experiments in optical homodyne tomography 533 17.4 Exercises 537 18 The master equation 538 18.1 Reduced density operators 538 18.2 The environment picture 538 18.3 Averaging over the environment 539 18.4 Examples of the master equation 542 18.5 Phase space methods 546 18.6 The Lindblad form of the master equation* 556 18.7 Quantum jumps 557 18.8 Exercises 576 19 Bell s theorem and its optical tests 578 19.1 The Einstein-Podolsky-Rosen paradox 579 19.2 The nature of randomness in the quantum world 581 19.3 Local realism 583 19.4 Bell s theorem 589 19.5 Quantum theory versus local realism 591 19.6 Comparisons with experiments 596 19.7 Exercises 600 20 Quantum information 601 20.1 Telecommunications 601 20.2 Quantum cloning 606 20.3 Quantum cryptography 616 20.4 Entanglement as a quantum resource 619 20.5 Quantum computing 630 20.6 Exercises 639 Appendix A Mathematics 645 A.I Vector analysis 645 A.2 General vector spaces 645 A.3 Hubert spaces 646 A.4 Fourier transforms 651 A.5 Laplace transforms 654 A. 6 Functional analysis 655 A.7 Improper functions 656 Contents xiii Α. 8 Probability and random variables 659 Appendix В Classical electrodynamics 661 B.I Maxwell s equations 661 B.2 Electrodynamics in the frequency domain 662 B.3 Wave equations 663 B.4 Planar cavity 669 B.5 Macroscopic Maxwell equations 670 Appendix С Quantum theory 680 C.I Dirac s bra and ket notation 680 C.2 Physical interpretation 683 C.3 Useful results for operators 685 C.4 Canonical commutation relations 690 C.5 Angular momentum in quantum mechanics 692 C.6 Minimal coupling 693 References 695 Index 708
adam_txt	Contents Introduction 1 1 The quantum nature of light 3 1.1 The early experiments 5 1.2 Photons 13 1.3 Are photons necessary? 20 1.4 Indivisibility of photons 24 1.5 Spontaneous down-conversion light source 28 1.6 Silicon avalanche-photodiode photon counters 29 1.7 The quantum theory of light 29 1.8 Exercises 30 2 Quantization of cavity modes 32 2.1 Quantization of cavity modes 32 2.2 Normal ordering and zero-point energy 47 2.3 States in quantum theory 48 2.4 Mixed states of the electromagnetic field 55 2.5 Vacuum fluctuations 60 2.6 The Casimir effect 62 2.7 Exercises 65 3 Field quantization 69 3.1 Field quantization in the vacuum 69 3.2 The Heisenberg picture 83 3.3 Field quantization in passive linear media 87 3.4 Electromagnetic angular momentum* 100 3.5 Wave packet quantization* 103 3.6 Photon localizability* 106 3.7 Exercises 109 4 Interaction of light with matter 111 4.1 Semiclassical electrodynamics 111 4.2 Quantum electrodynamics 113 4.3 Quantum Maxwell's equations 117 4.4 Parity and time reversal* 118 4.5 Stationary density operators 121 4.6 Positive- and negative-frequency parts for interacting fields 122 4.7 Multi-time correlation functions 123 4.8 The interaction picture 124 4.9 Interaction of light with atoms 130 χ Contents 4.10 Exercises 145 5 Coherent states 148 5.1 Quasiclassical states for radiation oscillators 148 5.2 Sources of coherent states 153 5.3 Experimental evidence for Poissonian statistics 157 5.4 Properties of coherent states 161 5.5 Multimode coherent states 167 5.6 Phase space description of quantum optics 172 5.7 Gaussian states* 187 5.8 Exercises 190 6 Entangled states 193 6.1 Einstein-Podolsky-Rosen states 193 6.2 Schrödinger's concept of entangled states 194 6.3 Extensions of the notion of entanglement 195 6.4 Entanglement for distinguishable particles 200 6.5 Entanglement for identical particles 205 6.6 Entanglement for photons 210 6.7 Exercises 216 7 Paraxial quantum optics 218 7.1 Classical paraxial optics 219 7.2 Paraxial states 219 7.3 The slowly-varying envelope operator 223 7.4 Gaussian beams and pulses 226 7.5 The paraxial expansion* 228 7.6 Paraxial wave packets* 229 7.7 Angular momentum* 230 7.8 Approximate photon localizability* 232 7.9 Exercises 234 8 Linear optical devices 237 8.1 Classical scattering 237 8.2 Quantum scattering 242 8.3 Paraxial optical elements 245 8.4 The beam splitter 247 8.5 Y-junctions 254 8.6 Isolators and circulators 255 8.7 Stops 260 8.8 Exercises 262 9 Photon detection 265 9.1 Primary photon detection 265 9.2 Postdetection signal processing 280 9.3 Heterodyne and homodyne detection 290 9.4 Exercises 305 Contents xi 10 Experiments in linear optics 307 10.1 Single-photon interference 307 10.2 Two-photon interference 315 10.3 Single-photon interference revisited* 333 10.4 Tunneling time measurements* 337 10.5 The meaning of causality in quantum optics* 343 10.6 Interaction-free measurements* 345 10.7 Exercises 348 11 Coherent interaction of light with atoms 350 11.1 Resonant wave approximation 350 11.2 Spontaneous emission II 357 11.3 The semiclassical limit 369 11.4 Exercises 379 12 Cavity quantum electrodynamics 381 12.1 The Jaynes-Cummings model 381 12.2 Collapses and revivals 384 12.3 The micromaser 387 12.4 Exercises 390 13 Nonlinear quantum optics 391 13.1 The atomic polarization 391 13.2 Weakly nonlinear media 393 13.3 Three-photon interactions 399 13.4 Four-photon interactions 412 13.5 Exercises 418 14 Quantum noise and dissipation 420 14.1 The world as sample and environment 420 14.2 Photons in a lossy cavity 428 14.3 The input-output method 435 14.4 Noise and dissipation for atoms 442 14.5 Incoherent pumping 447 14.6 The fluctuation dissipation theorem* 450 14.7 Quantum regression* 454 14.8 Photon bunching* 456 14.9 Resonance fluorescence* 457 14.10 Exercises 466 15 Nonclassical states of light 470 15.1 Squeezed states 470 15.2 Theory of squeezed-light generation* 485 15.3 Experimental squeezed-light generation 492 15.4 Number states 495 15.5 Exercises 497 16 Linear optical amplifiers* 499 xii Contents 16.1 General properties of linear amplifiers 499 16.2 Regenerative amplifiers 502 16.3 Traveling-wave amplifiers 510 16.4 General description of linear amplifiers 516 16.5 Noise limits for linear amplifiers 523 16.6 Exercises 527 17 Quantum tomography 529 17.1 Classical tomography 529 17.2 Optical homodyne tomography 532 17.3 Experiments in optical homodyne tomography 533 17.4 Exercises 537 18 The master equation 538 18.1 Reduced density operators 538 18.2 The environment picture 538 18.3 Averaging over the environment 539 18.4 Examples of the master equation 542 18.5 Phase space methods 546 18.6 The Lindblad form of the master equation* 556 18.7 Quantum jumps 557 18.8 Exercises 576 19 Bell's theorem and its optical tests 578 19.1 The Einstein-Podolsky-Rosen paradox 579 19.2 The nature of randomness in the quantum world 581 19.3 Local realism 583 19.4 Bell's theorem 589 19.5 Quantum theory versus local realism 591 19.6 Comparisons with experiments 596 19.7 Exercises 600 20 Quantum information 601 20.1 Telecommunications 601 20.2 Quantum cloning 606 20.3 Quantum cryptography 616 20.4 Entanglement as a quantum resource 619 20.5 Quantum computing 630 20.6 Exercises 639 Appendix A Mathematics 645 A.I Vector analysis 645 A.2 General vector spaces 645 A.3 Hubert spaces 646 A.4 Fourier transforms 651 A.5 Laplace transforms 654 A. 6 Functional analysis 655 A.7 Improper functions 656 Contents xiii Α. 8 Probability and random variables 659 Appendix В Classical electrodynamics 661 B.I Maxwell's equations 661 B.2 Electrodynamics in the frequency domain 662 B.3 Wave equations 663 B.4 Planar cavity 669 B.5 Macroscopic Maxwell equations 670 Appendix С Quantum theory 680 C.I Dirac's bra and ket notation 680 C.2 Physical interpretation 683 C.3 Useful results for operators 685 C.4 Canonical commutation relations 690 C.5 Angular momentum in quantum mechanics 692 C.6 Minimal coupling 693 References 695 Index 708
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spelling	Garrison, John C. Verfasser aut Quantum optics J. C. Garrison ; R. Y. Chiao 1. publ. Oxford [u.a.] Oxford Univ. Press 2008 XIII, 716 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Oxford graduate texts Hier auch später erschienene, unveränderte Nachdrucke Optique quantique Rameau Quantum optics Lehrbuch (DE-588)4123623-3 gnd rswk-swf Quantenoptik (DE-588)4047990-0 gnd rswk-swf Quantenoptik (DE-588)4047990-0 s Lehrbuch (DE-588)4123623-3 s 1\p DE-604 Chiao, Raymond Y. 1940- Verfasser (DE-588)114600678 aut Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015660900&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
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subject_GND	(DE-588)4123623-3 (DE-588)4047990-0
title	Quantum optics
title_auth	Quantum optics
title_exact_search	Quantum optics
title_exact_search_txtP	Quantum optics
title_full	Quantum optics J. C. Garrison ; R. Y. Chiao
title_fullStr	Quantum optics J. C. Garrison ; R. Y. Chiao
title_full_unstemmed	Quantum optics J. C. Garrison ; R. Y. Chiao
title_short	Quantum optics
title_sort	quantum optics
topic	Optique quantique Rameau Quantum optics Lehrbuch (DE-588)4123623-3 gnd Quantenoptik (DE-588)4047990-0 gnd
topic_facet	Optique quantique Quantum optics Lehrbuch Quantenoptik
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