Verfügbarkeit: Nonclassical light from semiconductor lasers and LEDs

Nonclassical light from semiconductor lasers and LEDs:

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Bibliographische Detailangaben
Hauptverfasser:	Kim, Jungsang 1969- (VerfasserIn), Somani, Seema 1970- (VerfasserIn), Yamamoto, Yoshihisa 1950- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin [u.a.] Springer 2001
Schriftenreihe:	Springer series in photonics 5
Schlagworte:	Light emitting diodes Semiconductor lasers Squeezed light Gequetschter Zustand Lumineszenzdiode Halbleiterlaser
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XIV, 244 S. graph. Darst.
ISBN:	3540677178

Internformat

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Datensatz im Suchindex

_version_	1805086072431968256
adam_text	J. KIM S. SOMANI Y. YAMAMOTO NONDASSICAL LIGHT FROM SEMICONDUCTOR LASERS AND LEDS WITH 113 FIGURES SPRINGER CONTENTS 1. NONDASSICAL LIGHT 1 1.1 CLASSICAL DESCRIPTION OF LIGHT 1 1.2 QUANTUM DESCRIPTION OF LIGHT 2 1.3 COHERENT STATE. SQUEEZED STATE AND NUMBER-PHASE SQUEEZED STATE 3 1.4 QUANTUM THEORY OF PHOTODETECTION AND SUB-POISSON PHOTON DISTRIBUTION 4 1.5 QUANTUM THEORY OF SECOND-ORDER COHERENCE AND PHOTON ANTIBUNCHING 6 1.6 QUANTUM THEORY OF PHOTOCURRENT FLUCTUATION AND SQUEEZING 9 2. NOISE OF PN JUNCTION LIGHT EMITTERS 13 2.1 INTRODUCTION 13 2.2 JUNCTION VOLTAGE DYNAMICS: THE POISSON EQUATION 14 2.3 SEMICLASSICAL LANGEVIN EQUATION FOR JUNCTION VOLTAGE DYNAMICS 17 2.3.1 MESOSCOPIC CASE (R » 1) 18 2.3.2 MACROSCOPIC CASE (RL) 18 2.4 NOISE ANALYSIS OF AN LED 20 2.4.1 STEADY-STATE CONDITIONS 22 2.4.2 LINEARIZATION 22 2.4.3 PHOTON-NUMBER NOISE 23 2.4.4, NOISE IN THE EXTERNAL CIRCUIT CURRENT 27 2.4.5 CORRELATION BETWEEN CARRIER NUMBER AND JUNCTION VOLTAGE 28 2.4.6 CORRELATION BETWEEN PHOTON FLUX AND JUNCTION VOLTAGE 29 2.5 SUMMARY 30 3. SUB-POISSONIAN LIGHT GENERATION IN LIGHT-EMITTING DIODES 3 1 3.1 INTRODUCTION 31 3.2 PHYSICAL MECHANISM OF PUMP-NOISE SUPPRESSION 31 3.3 MEASUREMENT OF THE SQUEEZING BANDWIDTH 33 3.4 SUMMARY 39 X CONTENTS 4. AMPLITUDE-SQUEEZED LIGHT GENERATION IN SEMICONDUCTOR LASERS 41 4.1 INTRODUCTION 41 4.2 INTERFEROMETRIC MEASUREMENT OF LONGITUDINAL-MODE-PARTITION NOISE 43 4.2.1 PRINCIPLE 43 4.2.2 EXPERIMENTAL SETUP 43 4.3 GRATING-FEEDBACK EXTERNAL-CAVITY SEMICONDUCTOR LASER 45 4.3.1 EXPERIMENTAL SETUP AND PROCEDURE 45 4.3.2 EXPERIMENTAL RESULTS 45 4.3.3 DISCUSSION 48 4.4 INJECTION-LOCKED SEMICONDUCTOR LASER 48 4.4.1 EXPERIMENTAL SETUP AND PROCEDURE 48 4.4.2 EXPERIMENTAL RESULTS 49 4.4.3 DISCUSSION 51 4.4.4 MODELING OF THE NOISE OF AN INJECTION-LOCKED LASER . 52 4.5 SUMMARY 55 5. EXCESS INTENSITY NOISE OF A SEMICONDUCTOR LASER WITH NONLINEAR GAIN AND LOSS 57 5.1 INTRODUCTION 57 5.2 PHYSICAL MODELS FOR NONLINEARITY 58 5.2.1 NONLINEAR GAIN 58 5.2.2 NONLINEAR LOSS 60 5.3 NOISE ANALYSIS USING LANGEVIN RATE EQUATIONS 61 5.4 NUMERICAL RESULTS 63 5.4.1 NUMERICAL PARAMETERS 63 5.4.2 RESULTS 63 5.5 DISCUSSION: EFFECT OF SATURABLE LOSS 65 5.6 COMPARISON OF TWO LASER STRUCTURES WITH RESPECT TO SATURABLE LOSS 69 5.6.1 ESTIMATE OF THE LOSS BY SI DX CENTERS 69 5.6.2 EXPERIMENTAL VERIFICATION OF THE SATURABLE LOSS 71 5.6.3 EXPLANATION FOR THE EXCESS NOISE IN QW LASERS 74 5.7 SUMMARY 74 6. TRANSVERSE-JUNCTION-STRIPE LASERS FOR SQUEEZED LIGHT GENERATION 77 6.1 INTRODUCTION 77 6.2 FABRICATION 78 6.2.1 SI DIFFUSION AND INTERMIXING 78 6.2.2 HIGH V/III RATIO FOR SHARPER INTERFACES 79 6.2.3 P DOPING BY ZN DIFFUSION 79 6.2.4 DEVICES 80 CONTENTS XI 6.3 DC CHARACTERIZATION: THRESHOLD, LOSS AND QUANTUM EFFICIENCY 80 6.4 INTENSITY NOISE 81 6.4.1 INFLUENCE OF HIGH V/III RATIO 81 6.4.2 OPTIMIZATION OF EXTERNAL COUPLING EFFICIENCY 83 6.4.3 POLARIZATION-PARTITION NOISE 84 6.4.4 LONGITUDINAL-MODE-PARTITION NOISE 85 6.4.5 SUPPRESSED 1/F NOISE 86 6.5 SUMMARY 87 7. SUB-SHOT-NOISE FM SPECTROSCOPY 89 7.1 INTRODUCTION 89 7.2 ADVANTAGES OF SEMICONDUCTOR LASERS 89 7.3 SIGNAL-TO-NOISE RATIO (SNR) 90 7.4 REALIZATION OF SUB-SHOT-NOISE FM SPECTROSCOPY 92 7.4.1 FREQUENCY AND NOISE CONTROL BY INJECTION LOCKING . 93 7.4.2 EFFECT OF INJECTION LOCKING ON INTENSITY NOISE 95 7.4.3 SUPPRESSION OF RESIDUAL AM BY INJECTION-LOCKING . 96 7.4.4 SUPPRESSION OF RESIDUAL AM BY DUAL PUMP CURRENT MODULATION 98 7.4.5 EXPECTED LINESHAPE 101 7.4.6 SPECTROSCOPIC SETUP 103 7.5 EXPERIMENTAL RESULTS 104 7.6 FUTURE PROSPECTS 105 8. SUB-SHOT-NOISE FM NOISE SPECTROSCOPY 107 8.1 INTRODUCTION 107 8.2 PRINCIPLE OF FM NOISE SPECTROSCOPY 109 8.3 SIGNAL-TO-NOISE RATIO AND THE ADVANTAGE OF AMPLITUDE SQUEEZING 109 8.4 SUB-SHOT-NOISE SPECTROSCOPY 110 8.4.1 EXPERIMENTAL SETUP 110 8.4.2 LASER TRAPPING AND COOLING OF RB ILL 8.4.3 EXPECTED OPTICAL TRANSITIONS IN A MAGNETO-OPTIC TRAP 112 8.4.4 SAMPLE PROBING 113 8.4.5 EXPERIMENTAL RESULT 114 8.5 PHASE-SENSITIVE FM NOISE SPECTROSCOPY 116 8.5.1 EXPERIMENTAL SETUP 116 8.5.2 EXPERIMENTAL RESULTS 118 8.6 SUMMARY 121 XII CONTENTS 9. SUB-SHOT-NOISE INTERFEROMETRY 123 9.1 INTRODUCTION 123 9.2 SENSITIVITY LIMIT OF AN OPTICAL INTERFEROMETER 124 9.3 AMPLITUDE-SQUEEZED LIGHT INJECTION IN A DUAL-INPUT MACH-ZEHNDER INTERFEROMETER 125 9.4 SUB-SHOT-NOISE PHASE MEASUREMENT 127 9.4.1 EXPERIMENTAL PROCEDURE 127 9.4.2 EXPERIMENTAL RESULT 128 9.5 DUAL-INPUT MICHELSON INTERFEROMETER 131 9.5.1 OPERATION PRINCIPLE 131 9.5.2 SENSITIVITY OF A DUAL-INPUT MICHELSON INTERFEROMETER . . 133 9.5.3 SUB-SHOT-NOISE INTERFEROMETRY 134 9.6 SUMMARY AND FUTURE PROSPECTS 136 10. COULOMB BLOCKADE EFFECT IN MESOSCOPIC PN JUNCTIONS. . . . 137 10.1 INTRODUCTION 137 10.2 CALCULATION OF RESONANT TUNNELING RATES 138 10.2.1 TRANSMITTANCE OF THE BARRIER 139 10.2.2 TUNNELING MATRIX ELEMENT 140 10.2.3 ELECTRON TUNNELING CURRENT DENSITY INTO THE CENTRAL QW 142 10.2.4 EFFECT OF INHOMOGENEOUS BROADENING 143 10.3 COULOMB BLOCKADE EFFECT ON RESONANT TUNNELING 144 10.4 COULOMB STAIRCASE 146 10.4.1 DC VOLTAGE BIAS CONDITION 146 10.4.2 DC + AC VOLTAGE BIAS CONDITION 148 10.5 TURNSTILE OPERATION 150 10.6 MONTE-CARLO SIMULATIONS 154 10.7 SUMMARY 154 11. SINGLE-PHOTON GENERATION IN A SINGLE-PHOTON TURNSTILE DEVICE 155 11.1 INTRODUCTION 155 11.2 DEVICE FABRICATION 155 11.2.1 WAFER DESIGN AND GROWTH 156 11.2.2 OHMIC CONTACT FORMATION 157 11.2.3 DEVICE DEFINITION: ELECTRON-BEAM LITHOGRAPHY 158 11.2.4 METAL EVAPORATION AND LIFTOFF 158 11.2.5 DEVICE ISOLATION: ECR-RIE 160 11.2.6 SURFACE PASSIVATION 162 11.2.7 PLANARIZATION AND TOP-CONTACT EVAPORATION 165 11.3 OBSERVATION OF THE COULOMB STAIRCASE 167 11.4 SINGLE-PHOTON TURNSTILE DEVICE 168 11.4.1 PRELIMINARY CHARACTERIZATION 168 11.4.2 EXPERIMENTAL SETUP 170 CONTENTS XIII 11.4.3 ELECTRICAL CHARACTERIZATION 172 11.4.4 OPTICAL CHARACTERIZATION 174 11.5 SUMMARY 177 12. SINGLE-PHOTON DETECTION WITH VISIBLE-LIGHT PHOTON COUNTER 179 12.1 INTRODUCTION 179 12.2 COMPARISON OF SINGLE-PHOTON DETECTORS 180 12.2.1 PHOTOMULTIPLIER TUBES (PMTS) 180 12.2.2 AVALANCHE PHOTODIODES (APDS) 181 12.2.3 SUPERCONDUCTING TUNNEL JUNCTIONS (STJS) 182 12.2.4 SOLID-STATE PHOTOMULTIPLIERS (SSPMS) AND VISIBLE-LIGHT PHOTON COUNTERS (VLPCS) 183 12.3 OPERATION PRINCIPLE OF A VLPC 183 12.4 SINGLE-PHOTON DETECTION SYSTEM BASED ON A VLPC 184 12.5 QUANTUM EFFICIENCY OF A VLPC 186 12.6 THEORY OF NOISE IN AVALANCHE MULTIPLICATION 191 12.6.1 EXCESS NOISE FACTOR (ENF) 191 12.6.2 NOISE POWER SPECTRAL DENSITY OF THE MULTIPLIED PHOTOCURRENT 192 12.6.3 EFFECT OF ENF IN THE PULSE-HEIGHT DISTRIBUTION 193 12.7 EXCESS NOISE FACTOR OF A VLPC 194 12.7.1 DIGITAL MEASUREMENT OF THE PULSE-HEIGHT DISTRIBUTION . 195 12.7.2 ANALOG NOISE POWER SPECTRAL DENSITY MEASUREMENT . . . 196 12.8 TWO-PHOTON DETECTION WITH A VLPC 198 12.8.1 TWIN PHOTON GENERATION IN OPTICAL PARAMETRIC DOWNCONVERSION 199 12.8.2 CHARACTERIZATION OF TWO-PHOTON DETECTION WITH VLPC 201 12.9 SUMMARY 204 13. FUTURE PROSPECTS 207 13.1 INTRODUCTION 207 13.2 REGULATED AND ENTANGLED PHOTONS FROM A SINGLE QUANTUM DOT 208 13.3 SINGLE-MODE SPONTANEOUS EMISSION FROM A SINGLE QUANTUM DOT IN A THREE-DIMENSIONAL MICROCAVITY 212 13.4 LASING AND SQUEEZING OF EXCITON-POLARITONS IN A SEMICONDUCTOR MICROCAVITY 217 A. APPENDIX: NOISE AND CORRELATION SPECTRA FOR LIGHT-EMITTING DIODE 221 A.I LINEARIZATION 221 A.2 LED PHOTON NOISE SPECTRAL DENSITY 222 A.3 EXTERNAL CURRENT NOISE SPECTRAL DENSITY 223 XIV CONTENTS A.4 JUNCTION-VOLTAGE-CARRIER-NUMBER CORRELATION 223 A.5 PHOTON-FLUX-JUNCTION-VOLTAGE CORRELATION 224 REFERENCES 225 SUBJECT INDEX 241
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author	Kim, Jungsang 1969- Somani, Seema 1970- Yamamoto, Yoshihisa 1950-
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owner	DE-703 DE-29T DE-83
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physical	XIV, 244 S. graph. Darst.
publishDate	2001
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series	Springer series in photonics
series2	Springer series in photonics Physics and astronomy online library
spelling	Kim, Jungsang 1969- Verfasser (DE-588)122813006 aut Nonclassical light from semiconductor lasers and LEDs J. Kim ; S. Somani ; Y. Yamamoto Berlin [u.a.] Springer 2001 XIV, 244 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Springer series in photonics 5 Physics and astronomy online library Light emitting diodes Semiconductor lasers Squeezed light Gequetschter Zustand (DE-588)4209367-3 gnd rswk-swf Lumineszenzdiode (DE-588)4125154-4 gnd rswk-swf Halbleiterlaser (DE-588)4139556-6 gnd rswk-swf Gequetschter Zustand (DE-588)4209367-3 s Halbleiterlaser (DE-588)4139556-6 s Lumineszenzdiode (DE-588)4125154-4 s DE-604 Somani, Seema 1970- Verfasser (DE-588)12326765X aut Yamamoto, Yoshihisa 1950- Verfasser (DE-588)122813200 aut Springer series in photonics 5 (DE-604)BV012408642 5 HEBIS Datenaustausch Darmstadt application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009390965&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Kim, Jungsang 1969- Somani, Seema 1970- Yamamoto, Yoshihisa 1950- Nonclassical light from semiconductor lasers and LEDs Springer series in photonics Light emitting diodes Semiconductor lasers Squeezed light Gequetschter Zustand (DE-588)4209367-3 gnd Lumineszenzdiode (DE-588)4125154-4 gnd Halbleiterlaser (DE-588)4139556-6 gnd
subject_GND	(DE-588)4209367-3 (DE-588)4125154-4 (DE-588)4139556-6
title	Nonclassical light from semiconductor lasers and LEDs
title_auth	Nonclassical light from semiconductor lasers and LEDs
title_exact_search	Nonclassical light from semiconductor lasers and LEDs
title_full	Nonclassical light from semiconductor lasers and LEDs J. Kim ; S. Somani ; Y. Yamamoto
title_fullStr	Nonclassical light from semiconductor lasers and LEDs J. Kim ; S. Somani ; Y. Yamamoto
title_full_unstemmed	Nonclassical light from semiconductor lasers and LEDs J. Kim ; S. Somani ; Y. Yamamoto
title_short	Nonclassical light from semiconductor lasers and LEDs
title_sort	nonclassical light from semiconductor lasers and leds
topic	Light emitting diodes Semiconductor lasers Squeezed light Gequetschter Zustand (DE-588)4209367-3 gnd Lumineszenzdiode (DE-588)4125154-4 gnd Halbleiterlaser (DE-588)4139556-6 gnd
topic_facet	Light emitting diodes Semiconductor lasers Squeezed light Gequetschter Zustand Lumineszenzdiode Halbleiterlaser
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009390965&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV012408642
work_keys_str_mv	AT kimjungsang nonclassicallightfromsemiconductorlasersandleds AT somaniseema nonclassicallightfromsemiconductorlasersandleds AT yamamotoyoshihisa nonclassicallightfromsemiconductorlasersandleds

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