Verfügbarkeit: Single-photon generation and detection

Single-photon generation and detection: experimental methods in the physical sciences

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Format:	Buch
Sprache:	English
Veröffentlicht:	Amsterdam [u.a.] Elsevier 2013
Schriftenreihe:	Experimental methods in the physical sciences 45
Schlagworte:	aPhotons aPhoton detectors Einzelphotonenemission Photonendetektor
Online-Zugang:	Inhaltsverzeichnis Inhaltsverzeichnis
Beschreibung:	Literaturangaben
Beschreibung:	XXII, 569 S. Ill., graph. Darst.
ISBN:	9780123876959

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MARC


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Datensatz im Suchindex

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adam_text	CONTENTS CONTRIBUTORS XIII VOLUMES IN SERIES XVII PREFACE XXI 1. INTRODUCTION 1 1.1 PHYSICS OF LIGHTAN HISTORICAL PERSPECTIVE 1 1.2 QUANTUM LIGHT 2 1.2.1 WHAT IS NON-CLASSICAL LIGHT? 2 1.2.2 WHAT IS A PHOTON? 3 1.3 THE DEVELOPMENT OF SINGLE-PHOTON TECHNOLOGIES 4 1.4 SOME APPLICATIONS OF SINGLE-PHOTON TECHNOLOGY 8 1.5 THIS BOOK 9 1.5.1 SINGLE-PHOTON DETECTORS 9 1.5.2 SINGLE-PHOTON SOURCES 16 1.6 CONCLUSIONS 17 REFERENCES 18 2. PHOTON STATISTICS, MEASUREMENTS, AND MEASUREMENTS TOOLS 25 2.1 QUANTIZED ELECTRIC FIELD & OPERATOR NOTATION 26 2.2 SOURCE CHARACTERISTICS 28 2.2.1 STATE VECTOR 28 2.2.2 DENSITY MATRIX AND PHOTON NUMBER PROBABILITIES 29 2.2.3 PURITY 30 2.2.4 SOURCE EFFICIENCY AND GENERATION RATE 31 2.2.5 SECOND-ORDER COHERENCE, G (2) 32 2.2.6 RELATING G (2) TO P(N) 34 2.2.7 IDEAL AND NON-IDEAL SINGLE-PHOTON SOURCES 37 2.2.8 TO MEASURE P{N) OR G (2) ? 38 2.2.9 HANBURY BROWN-TWISS INTERFEROMETER 38 2.2.10 BUNCHING, ANTIBUNCHING, AND POISSONIAN PHOTON STATISTICS 42 2.2.11 HIGH-ORDER COHERENCES 44 2.2.12 INDISTINGUISHABILITY 45 2.2.13 OTHER SOURCES 47 V CONTENTS 2.3 DETECTOR PROPERTIES 52 2.3.1 DETECTION EFFICIENCY 53 2.3.2 POVM ELEMENTS 55 2.3.3 PHOTON-NUMBER-RESOLVING (PNR) CAPABILITY 56 2.3.4 TIMING LATENCY AND RISE TIME 62 2.3.5 TIMING JITTER 62 2.3.6 DEAD TIME, RESET TIME, AND RECOVERY TIME 64 2.3.7 DARK COUNT RATE 65 2.3.8 BACKGROUND COUNT RATE 65 2.3.9 AFTERPULSE PROBABILITY 65 2.3.10 ACTIVE AREA 66 2.3.11 OPERATING TEMPERATURE OF ACTIVE AREA 66 REFERENCES 66 3. PHOTOMULTIPLIER TUBES 69 3.1 INTRODUCTION 69 3.2 BRIEF HISTORY 69 3.3 PRINCIPLE OF OPERATION 71 3.3.1 PHOTOELECTRON EMISSION AND PHOTOCATHODES 72 3.3.2 SECONDARY EMISSION, DYNODES 73 3.4 PHOTON COUNTING WITH PHOTOMULTIPLIERS 76 3.5 CONCLUSION 82 REFERENCES 82 4. SEMICONDUCTOR-BASED DETECTORS 83 4.1 PHOTON COUNTING: WHEN AND WHY 84 4.2 WHY SEMICONDUCTOR DETECTORS FOR PHOTON COUNTING? 85 4.3 PRINCIPLE OF OPERATION OF SINGLE-PHOTON AVALANCHE DIODES 85 4.4 PERFORMANCE PARAMETERS AND FEATURES OF SPAD DEVICES 87 4.4.1 PHOTON DETECTION EFFICIENCY 88 4.4.2 DARK COUNT RATE (DCR) 88 4.4.3 AFTERPULSING 89 4.4.4 TIMING JITTER 90 4.4.5 CROSSTALK 92 4.4.6 FILL-FACTOR 93 4.4.7 MICROELECTRONIC STRUCTURE OF A SPAD: OUTLINE AND BASIC FEATURES 93 4.5 CIRCUIT PRINCIPLES FOR SPAD OPERATION 94 4.6 SILICON SPAD DEVICES 98 4.6.1 PLANAR SPAD DEVICES FABRICATED IN A CUSTOM TECHNOLOGY 98 4.6.2 NON-PLANAR SPAD DEVICES FABRICATED IN A CUSTOM TECHNOLOGY 102 4.6.3 HIGH-VOLTAGE, COMPLEMENTARY METAL-OXIDE SEMICONDUCTOR (HV-CMOS) SPADS 104 4.6.4 STANDARD DEEP-SUBMICRON CMOS SPADS 106 4.7 SILICON SPAD ARRAY DETECTORS 108 CONTENTS ( VII ) 4.8 SPADS FOR THE INFRARED SPECTRAL RANGE 113 4.8.1 INFRARED SPADS 113 4.8.2 BASIC INGAAS/LNP SPAD DESIGN CONCEPTS 114 4.8.3 DE AND DCR MODELING AND PERFORMANCE 115 4.8.4 TIMING JITTER 117 4.8.5 AFTERPULSING 118 4.8.6 COMPARISON OF INGAAS/LNP SPADS AND SI SPADS 119 4.9 ACTIVE GATING TECHNIQUES FOR INGAAS SPADS 120 4.9.1 INTRODUCTION 120 4.9.2 SAMPLING 122 4.9.3 CANCELLATION 123 4.9.4 INTRODUCTION TO HIGH-SPEED PERIODIC GATING 125 4.9.5 SINE-WAVE GATING 127 4.9.6 SELF-DIFFERENCING 129 4.9.7 HARMONIC SUBTRACTION 131 4.9.8 SUMMARY 132 4.10 FUTURE PROSPECTS FOR SILICON SPADS 134 4.11 FUTURE PROSPECTS FOR INGAAS SPADS 135 REFERENCES 137 5. NOVEL SEMICONDUCTOR SINGLE-PHOTON DETECTORS 147 5.1 INTRODUCTION 147 5.2 SOLID-STATE PHOTOMULTIPLIERS AND VISIBLE-LIGHT PHOTON COUNTERS 148 5.2.1 INTRODUCTION 148 5.2.2 VLPC STRUCTURE AND OPERATION 150 5.2.3 SSPM AND VLPC PERFORMANCE 154 5.2.4 QUANTITATIVE MODEL AND ITS CURRENT LIMITATIONS 161 5.2.5 NEW OPPORTUNITIES FOR VLPCS 163 5.2.6 CONCLUSIONS 166 5.3 QUANTUM-DOT-BASED DETECTORS 166 5.3.1 DETECTOR DESIGNS AND PRINCIPLES OF OPERATION 167 5.3.2 PHOTON-NUMBER-RESOLVING DETECTION 172 5.3.3 MODELING PHOTOCONDUCTIVE GAIN 175 5.3.4 CONCLUSIONS 179 REFERENCES 180 6. DETECTORS BASED ON SUPERCONDUCTORS 185 6.1 INTRODUCTION 186 6.2 SUPERCONDUCTING NANOWIRE SINGLE-PHOTON DETECTORS 187 6.2.1 OPERATING PRINCIPLE 187 6.2.2 PRINCIPAL STRENGTHS, WEAKNESSES 191 6.2.3 AREAS OF RESEARCH 192 6.3 TRANSITION-EDGE SENSORS 194 6.3.1 OPERATING PRINCIPLE 195 6.3.2 PRINCIPAL STRENGTHS AND WEAKNESSES 199 6.3.3 RESEARCH AREAS 199 CONTENTS 6.4 SUPERCONDUCTING TUNNEL JUNCTION DETECTORS 201 6.4.1 OPERATING PRINCIPLE 201 6.4.2 STRENGTHS AND WEAKNESSES 204 6.4.3 RESEARCH AREAS 204 6.5 MICROWAVE KINETIC-INDUCTANCE DETECTORS 204 6.5.1 OPERATING PRINCIPLE 205 6.5.2 STRENGTHS AND WEAKNESSES 206 6.5.3 RESEARCH AREAS 207 6.6 CONCLUSIONS AND PERSPECTIVE 208 REFERENCES 209 7. HYBRID DETECTORS 217 7.1 INTRODUCTION 218 7.2 SPACE-MULTIPLEXED DETECTORS 219 7.2.1 INTRODUCTION 219 7.2.2 THEORY OF OPERATION 220 7.2.3 EXPERIMENTAL IMPLEMENTATIONS OF SPACE-MULTIPLEXED DETECTORS 231 7.3 TIME-MULTIPLEXED DETECTORS 236 7.3.1 INTRODUCTION 236 7.3.2 FIBER-LOOP DETECTORS 237 7.3.3 WEAK-HOMODYNE DETECTION 241 7.4 UP-CONVERSION DETECTORS 243 7.4.1 INTRODUCTION 243 7.4.2 THEORY OF SINGLE-PHOTON UP-CONVERSION 244 7.4.3 UP-CONVERSION TECHNIQUES 245 7.4.4 PULSED UP-CONVERSION 249 7.4.5 ULTRAFAST UP-CONVERSION 250 7.5 CONCLUSION 253 REFERENCES 253 8. SINGLE-PHOTON DETECTOR CALIBRATION 257 8.1 INTRODUCTION 257 8.2 DEFINITIONS 259 8.3 CALIBRATION METHODS 260 8.3.1 RADIANT POWER MEASUREMENTS (SUBSTITUTION METHOD) 261 8.3.2 CORRELATED-PHOTON-PAIR CALIBRATION METHOD 262 8.4 PRACTICAL CONSIDERATIONS 263 8.4.1 SEMICONDUCTOR SINGLE-PHOTON AVALANCHE DIODES 264 8.4.2 TRANSITION EDGE SENSORS 275 8.5 CONCLUSION 279 REFERENCES 280 9. QUANTUM DETECTOR TOMOGRAPHY 283 9.1 INTRODUCTION 283 9.2 QUANTUM TOMOGRAPHY: PRELUDE 286 9.2.1 STATE TOMOGRAPHY 287 CONTENTS 9.2.2 PROCESS TOMOGRAPHY 288 9.3 DETECTOR TOMOGRAPHY 288 9.3.1 GENERAL INTRODUCTION 289 9.3.2 PHOTON-NUMBER-RESOLVING DETECTORS 291 9.3.3 RECONSTRUCTION WITHOUT PHASE-SENSITIVITY 293 9.3.4 RECONSTRUCTION WITH PHASE-SENSITIVITY: THE CHALLENGE 295 9.4 EXPERIMENTAL IMPLEMENTATIONS OF DETECTOR TOMOGRAPHY 297 9.4.1 EXPERIMENTAL SETUP 298 9.4.2 Q-FUNCTION 300 9.4.3 RECONSTRUCTED POVM ELEMENTS 301 9.4.4 CONDITIONING AND REGULARIZATION 305 9.4.5 ROBUSTNESS OF DETECTOR TOMOGRAPHY 307 9.4.6 WIGNER FUNCTIONS 308 9.5 CONCLUSIONS 310 REFERENCES 311 10. THE FIRST SINGLE-PHOTON SOURCES 315 10.1 INTRODUCTION 316 10.2 FEEBLE LIGHT VS. SINGLE PHOTON 318 10.2.1 IN SEARCH OF FEEBLE LIGHT S WAVE-LIKE PROPERTIES: A SHORT HISTORICAL REVIEW 318 10.2.2 QUANTUM OPTICS IN A NUTSHELL 319 10.2.3 ONE-PHOTON WAVEPACKET 321 10.2.4 QUASI-CLASSICAL WAVEPACKET 326 10.2.5 THE POSSIBILITY OF AN EXPERIMENTAL DISTINCTION 328 10.2.6 ATTENUATED CONTINUOUS LIGHT BEAMS 329 10.2.7 LIGHT FROM A DISCHARGE LAMP 331 10.2.8 CONCLUSION: WHAT IS SINGLE-PHOTON LIGHT? 333 10.3 PHOTON PAIRS AS A RESOURCE FOR SINGLE PHOTONS 334 10.3.1 INTRODUCTION 334 10.3.2 NON-CLASSICAL PROPERTIES IN AN ATOMIC CASCADE 335 10.3.3 ANTICORRELATION FOR A SINGLE PHOTON ON A BEAMSPLITTER 336 10.3.4 THE 1986 ANTICORRELATION EXPERIMENT 339 10.4 SINGLE-PHOTON INTERFERENCES 344 10.4.1 WAVE-PARTICLE DUALITY IN TEXTBOOKS 344 10.4.2 INTERFERENCES WITH A SINGLE PHOTON 344 10.5 FURTHER DEVELOPMENTS 346 10.5.1 PARAMETRIC SOURCES OF PHOTON PAIRS 346 10.5.2 OTHER HERALDED AND ON-DEMAND SINGLE-PHOTON SOURCES 347 10.5.3 DELAYED-CHOICE SINGLE-PHOTON INTERFERENCE EXPERIMENTS 348 REFERENCES 348 11. PARAMETRIC DOWN-CONVERSION 351 11.1 INTRODUCTION 352 11.2 SINGLE PHOTONS FROM PDC: THEORY 353 11.2.1 CLASSICAL DESCRIPTION OF PDC 354 CONTENTS 11.2.2 QUANTUM MECHANICAL DESCRIPTION OF PDC 357 11.2.3 HERALDING SINGLE PHOTONS FROM PDC 360 11.2.4 HERALDING PURE SINGLE-PHOTON FOCK STATES 362 11.3 BULK-CRYSTAL PDC 367 11.3.1 BIREFRINGENT PHASE-MATCHING 367 11.3.2 HERALDED SINGLE PHOTONS FROM TRIGGERED PDC 372 11.4 PERIODICALLY-POLED CRYSTAL PDC 379 11.4.1 QUASI-PHASE-MATCHING 379 11.4.2 PERIODIC POLING 383 11.4.3 OPTIMAL FOCUS PARAMETERS FOR HERALDING EFFICIENCY 384 11.4.4 NUMBER PURITY 388 11.4.5 SPECTRAL PURITY 390 11.4.6 NON-UNIFORM PERIODIC POLING 391 11.5 WAVEGUIDE-CRYSTAL PDC 392 11.5.1 HISTORY AND EXPERIMENTAL IMPLEMENTATIONS 393 11.5.2 THEORY OF PDC IN WAVEGUIDES 394 11.5.3 HERALDING SINGLE PHOTONS FROM PDC IN WAVEGUIDES 399 11.5.4 ELECTRIC FIELD MODES IN WAVEGUIDES 401 11.6 COMPARISON OF EXPERIMENTAL SINGLE-PHOTON SOURCES USING PDC 403 11.7 OVERVIEW OF THE MOST COMMONLY USED NONLINEAR MATERIALS AND THEIR PROPERTIES 404 11.8 CONCLUSION 404 REFERENCES 404 12. FOUR-WAVE MIXING IN SINGLE-MODE OPTICAL FIBERS 411 12.1 INTRODUCTION 412 12.2 PHOTON-PAIR GENERATION IN OPTICAL FIBERS 413 12.2.1 CLASSICAL FOUR-WAVE MIXING THEORY AND PHASE-MATCHING REQUIREMENTS 413 12.2.2 QUANTUM THEORY OF FOUR-WAVE MIXING 416 12.2.3 CROSS-POLARIZED FOUR-WAVE MIXING IN BIREFRINGENT FIBERS 419 12.2.4 RAMAN SCATTERING 420 12.3 HERALDED SINGLE-PHOTON SOURCES BASED ON SFWM 422 12.3.1 PHOTON-PAIR GENERATION IN THE ANOMALOUS DISPERSION REGIME 425 12.3.2 PHOTONIC CRYSTAL FIBER SOURCES IN THE NORMAL DISPERSION REGIME 427 12.4 QUANTUM INTERFERENCE BETWEEN SEPARATE SPECTRALLY FILTERED FIBER SOURCES 430 12.5 INTRINSICALLY PURE-STATE PHOTONS 436 12.5.1 GENERATION OF SPECTRALLY UNCORRELATED TWO-PHOTON STATES THROUGH GROUP VELOCITY MATCHING 436 12.5.2 A TEMPORAL FILTERING APPROACH FOR ATTAINING PURE-STATE PHOTONS 440 12.6 ENTANGLED PHOTON-PAIR SOURCES 444 CONTENTS 12.7 APPLICATIONS OF FIBER PHOTON SOURCESALL-FIBER QUANTUM LOGIC GATES 12.8 PHOTONIC FUSION IN FIBER 12.9 CONCLUSION REFERENCES 13. SINGLE EMITTERS IN ISOLATED QUANTUM SYSTEMS 13.1 INTRODUCTION 13.2 SINGLE PHOTONS FROM ATOMS AND IONS - A. KUHN 13.2.1 EMISSION INTO FREE SPACE 13.2.2 CAVITY-BASED SINGLE-PHOTON EMITTERS 13.2.3 PHOTON COHERENCE, AMPLITUDE, AND PHASE CONTROL 13.3 SINGLE PHOTONS FROM SEMICONDUCTOR QUANTUM DOTS - G. S. SOLOMON 13.3.1 INTRODUCTION 13.3.2 INAS-BASED QUANTUM-DOT FORMATION 13.3.3 EXCITON ENERGETICS 13.3.4 OPTICALLY ACCESSING SINGLE QUANTUM DOTS 13.3.5 SINGLE PHOTONS FROM SINGLE QUANTUM DOTS 13.3.6 WEAK QD-CAVITY COUPLING 13.3.7 QUANTUM-DOT PHOTON INDISTINGUISHABILITY 13.4 SINGLE DEFECTS IN DIAMOND - C. SANTORI 13.4.1 INTRODUCTION 13.4.2 THE NITROGEN-VACANCY CENTER 13.4.3 OTHER DEFECTS 13.4.4 OPTICAL STRUCTURES IN DIAMOND 13.4.5 QUANTUM COMMUNICATION 13.4.6 SUMMARY 13.5 FUTURE DIRECTIONS REFERENCES 14. GENERATION AND STORAGE OF SINGLE PHOTONS IN COLLECTIVELY EXCITED ATOMIC ENSEMBLES 14.1 INTRODUCTION 14.2 BASIC CONCEPTS 14.3 FROM HERALDED TO DETERMINISTIC SINGLE-PHOTON SOURCES 14.4 INTERFERENCE OF PHOTONS FROM INDEPENDENT SOURCES 14.5 CONCLUSION AND OUTLOOK APPENDIX A WRITE PROCESS B READ PROCESS REFERENCES INDEX 454 458 460 461 467 468 468 469 471 485 492 492 493 494 497 499 502 505 511 511 511 521 522 525 526 526 527 541 541 543 545 550 555 556 556 559 560 563
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spelling	Single-photon generation and detection experimental methods in the physical sciences ed. Alan Migdall ... Amsterdam [u.a.] Elsevier 2013 XXII, 569 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Experimental methods in the physical sciences 45 Literaturangaben aPhotons aPhoton detectors Einzelphotonenemission (DE-588)7726957-3 gnd rswk-swf Photonendetektor (DE-588)4466001-7 gnd rswk-swf Einzelphotonenemission (DE-588)7726957-3 s Photonendetektor (DE-588)4466001-7 s DE-604 Migdall, Alan Sonstige oth Experimental methods in the physical sciences 45 (DE-604)BV010604537 45 DE-601 pdf/application http://www.gbv.de/dms/bowker/toc/9780123876959.pdf Inhaltsverzeichnis SWB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027535549&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Single-photon generation and detection experimental methods in the physical sciences Experimental methods in the physical sciences aPhotons aPhoton detectors Einzelphotonenemission (DE-588)7726957-3 gnd Photonendetektor (DE-588)4466001-7 gnd
subject_GND	(DE-588)7726957-3 (DE-588)4466001-7
title	Single-photon generation and detection experimental methods in the physical sciences
title_auth	Single-photon generation and detection experimental methods in the physical sciences
title_exact_search	Single-photon generation and detection experimental methods in the physical sciences
title_full	Single-photon generation and detection experimental methods in the physical sciences ed. Alan Migdall ...
title_fullStr	Single-photon generation and detection experimental methods in the physical sciences ed. Alan Migdall ...
title_full_unstemmed	Single-photon generation and detection experimental methods in the physical sciences ed. Alan Migdall ...
title_short	Single-photon generation and detection
title_sort	single photon generation and detection experimental methods in the physical sciences
title_sub	experimental methods in the physical sciences
topic	aPhotons aPhoton detectors Einzelphotonenemission (DE-588)7726957-3 gnd Photonendetektor (DE-588)4466001-7 gnd
topic_facet	aPhotons aPhoton detectors Einzelphotonenemission Photonendetektor
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