Verfügbarkeit: Frequency measurement and control

Frequency measurement and control: advanced techniques and future trends ; with 9 tables

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Bibliographische Detailangaben
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin [u.a.] Springer 2001
Schriftenreihe:	Topics in applied physics 79
Schlagworte:	Frequenzmessung Frequencies of oscillating systems > Measurement Frequenzstabilität Optoelektronik
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XIV, 394 S. Ill., graph. Darst.
ISBN:	3540676945

Internformat

MARC


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adam_text	CONTENTS INTRODUCTION ANDRE N. LUITEN . 1 PART I. LOW-NOISE AND ULTRASTABLE SECONDARY FREQUENCY STANDARDS LOW NOISE MICROWAVE RESONATOR OSCILLATORS: CURRENT STATUS AND FUTURE DEVELOPMENTS EUGENE N. IVANOV AND MICHAEL E. TOBAR . 7 1. INTRODUCTION . 7 2. PHASE NOISE OF A FREE-RUNNING OSCILLATOR . 9 2.1. LOOP OSCILLATOR WITH RESONATOR IN TRANSMISSION . 10 2.2. LEESON ' S MODEL OF NOISE IN A FREE-RUNNING LOOP OSCILLATOR . 11 2.3. LOOP OSCILLATOR WITH RESONATOR IN REFLECTION . 13 3. PHASE NOISE REDUCTION WITH AUTOMATIC FREQUENCY CONTROL . 13 4. TRANSPOSED-GAIN (DOUBLE-FREQUENCY) AMPLIFIER-OSCILLATOR . 15 5. ELECTRO-OPTICAL OSCILLATORS . 16 6. INTERFEROMETRIC FREQUENCY DISCRIMINATORS . 17 6.1. PHASE NOISE FLOOR OF INTERFEROMETRIC FREQUENCY DISCRIMINATOR . 18 6.2. ULTRA-LOW PHASE NOISE OSCILLATOR WITH INTERFEROMETRIC SIGNAL PROCESSING . 20 6.3. TUNABLE ULTRA-LOW PHASE NOISE OSCILLATOR WITH AUTOMATIC CARRIER SUPPRESSION . 23 6.4. PHASE NOISE PERFORMANCE OF TUNABLE OSCILLATOR WITH AUTOMATIC CARRIER SUPPRESSION . 25 6.5. AMPLITUDE TO FREQUENCY CONVERSION IN SAPPHIRE LOADED CAVITY RESONATORS . 27 6.6. AMPLITUDE NOISE SUPPRESSION IN OSCILLATORS WITH INTERFEROMETRIC SIGNAL PROCESSING . 28 VIII CONTENTS 7. DUAL-MODE MICROWAVE OSCILLATORS WITH IMPROVED LONG-TERM FREQUENCY STABILITY . 29 8. CONCLUSION . 33 REFERENCES . 34 ULTRASTABLE CRYOGENIC MICROWAVE OSCILLATORS ANTHONY G. MANN . 37 1. INTRODUCTION . 37 2. SUPERCONDUCTING CAVITY RESONATORS . 39 2.1. FREQUENCY STABILITY OF SUPERCONDUCTING CAVITY RESONATORS . 40 3. SAPPHIRE DIELECTRIC RESONATORS . 43 3.1. THE Q-FACTOR . 45 3.2. FREQUENCY STABILITY OF SAPPHIRE DIELECTRIC RESONATORS . 47 3.3. RESONATOR MODE SELECTION . 53 4. OSCILLATOR FREQUENCY STABILITY: FUNDAMENTAL LIMITATIONS . 54 5. ULTRA-HIGH STABILITY OSCILLATORS . 55 5.1. UWA SAPPHIRE OSCILLATORS . 57 5.2. SUPERCONDUCTING CAVITY STABILIZED OSCILLATOR (SCSO) . 62 6. SUMMARY . 63 REFERENCES . 64 FREQUENCY - TEMPERATURE COMPENSATION TECHNIQUES FOR HIGH-Q MICROWAVE RESONATORS JOHN G. HARTNETT AND MICHAEL E. TOBAR . 67 1. INTRODUCTION . 68 2. COMPENSATION TECHNIQUES . 70 2.1. PARAMAGNETIC COMPENSATION . 71 2.2. DIELECTRIC COMPENSATION . 72 2.3. MECHANICAL COMPENSATION . 74 3. EXPERIMENTAL RESULTS . 74 3.1. UWA LIQUID HELIUM SAPPHIRE OSCILLATOR . 75 3.2. UWA DIELECTRIC AND PARAMAGNETIC COMPENSATION EXPERIMENTS . 76 3.3. JPL MASER-SAPPHIRE OSCILLATOR (SCM) . .78 3.4. JPL MECHANICALLY COMPENSATED SAPPHIRE OSCILLATOR . 79 3.5. JPL SAPPHIRE-RUBY CLOSED CYCLE SYSTEM . 81 3.6. NPL LIQUID HE EXPERIMENT . 82 3.7. NPL-IFF SAPPHIRE-RUTILE EXPERIMENT . 84 3.8. IFF SAPPHIRE-QUARTZ/ LANTHANUM ALUMINATE-RUTILE EXPERIMENTS . 85 4. DISCUSSION . 86 REFERENCES . 88 CONTENTS IX PART II. LASER-COOLED ATOM AND TRAPPED-ION FREQUENCY STANDARDS OPTICAL FREQUENCY STANDARDS BASED ON NEUTRAL ATOMS AND MOLECULES FRITZ RIEHLE AND JIIRGEN HELMCKE . 95 1. INTRODUCTION . 95 2. STABILIZATION OF THE LASER FREQUENCY TO REFERENCE LINES OF NEUTRAL ABSORBERS . 97 3. STANDARDS USING ABSORPTION CELLS . 98 3.1. IODINE-STABILIZED LASERS . 98 3.2. ^-STABILIZED FREQUENCY-DOUBLED ND:YAG LASER AT 532 NM WAVELENGTH . 99 3.3. TWO-PHOTON STABILIZED LASER . 102 3.4. ACETYLENE-STABILIZED LASER . 103 3.5. LASERS STABILIZED TO CH4 OR OSO4 ABSORBERS . 106 4. ATOMIC AND MOLECULAR BEAM STANDARDS . 107 4.1. SEPARATED FIELD EXCITATION . 108 4.2. FREQUENCY STANDARD BASED ON A CA ATOMIC BEAM . 108 4.3. OTHER BEAM STANDARDS . ILL 5. STANDARDS BASED ON LASER-COOLED ABSORBERS . 112 5.1. EXPANDING CLOUD OF COLD BALLISTIC CA ATOMS . 112 5.2. ATOMIC FOUNTAINS . 118 6. FREQUENCY OF THE OPTICAL CALCIUM STANDARD . 118 6.1. FREQUENCY MEASUREMENT CHAIN . 119 6.2. UNCERTAINTY OF THE OPTICAL CALCIUM STANDARD . 119 6.3. RESULTS OF FREQUENCY MEASUREMENTS . 120 6.4. USE AND DISSEMINATION OF OPTICAL FREQUENCIES . 122 7. SUMMARY AND CONCLUSION . 123 REFERENCES . 123 COLD-ATOM CLOCKS ON EARTH AND IN SPACE PIERRE LEMONDE, PHILIPPE LAURENT, GIORGIO SANTARELLI, MICHEL ABGRALL, YVAN SORTAIS, SEBASTIEN BIZE, CHRISTOPHE NICOLAS, SHOUGANG ZHANG, ANDRE CLAIRON, NOEL DIMARCQ, PIERRE PETIT, ANTONY G. MANN, ANDRE N. LUITEN, SHENG CHANG, AND CHRISTOPHE SALOMON . 131 1. INTRODUCTION . 131 1.1. SCOPE OF THE PAPER . 134 2. OPERATION OF AN ATOMIC FOUNTAIN CLOCK . 135 3. OBSERVATION OF THE QUANTUM PROJECTION NOISE LIMIT IN A CESIUM FOUNTAIN . 138 4. RUBIDIUM FOUNTAIN . 141 X CONTENTS 5. A TRANSPORTABLE COLD-ATOM CLOCK . 144 6. ACES: ATOMIC CLOCK ENSEMBLE IN SPACE . 147 7. FUTURE PROSPECTS . 148 REFERENCES . 149 SINGLE-ION OPTICAL FREQUENCY STANDARDS AND MEASUREMENT OF THEIR ABSOLUTE OPTICAL FREQUENCY ALAN A. MADEJ AND JOHN E. BERNARD . 153 1. INTRODUCTION . 153 2. TRAPPING OF SINGLE-IONS . 154 3. LASER COOLING OF SINGLE-IONS . 159 4. LASER SOURCES FOR PROBING, COOLING AND DETECTION . 161 4.1. SHELVED ELECTRON DETECTION OF SINGLE-ION, ULTRA-NARROW TRANSITIONS . 161 4.2. LASER SOURCES FOR LASER COOLING AND PUMPING TRANSITIONS . 163 4.3. LASER SOURCES FOR PROBING NARROW REFERENCE TRANSITIONS . 165 5. FREQUENCY STABILIZATION ON SINGLE-ION REFERENCE TRANSITIONS . 166 6. LIMITATIONS TO ACCURACY IN SINGLE-ION OPTICAL FREQUENCY STANDARDS . 168 6.1. ELIMINATION OF THE FIRST-ORDER DOPPLER EFFECT (LAMB-DICKE REGIME) . 168 6.2. SECOND-ORDER DOPPLER (RELATIVISTIC TIME DILATION) SHIFTS . 170 6.3. QUADRATIC STARK SHIFTS OF THE ION TRANSITION DUE TO THE ION TRAP . 171 6.4. BLACKBODY STARK SHIFTS OF THE ION REFERENCE TRANSITION . 171 6.5. SHIFTS DUE TO THE QUADRUPOLE MOMENT OF THE UPPER STATE . 172 6.6. LINEAR ZEEMAN EFFECTS ON THE REFERENCE TRANSITION . 172 6.7. QUADRATIC ZEEMAN SHIFTS OF THE REFERENCE TRANSITION . 173 6.8. EFFECT OF COLLISIONS ON THE REFERENCE TRANSITION . 173 7. PROGRESS ON SINGLE-ION OPTICAL FREQUENCY STANDARD CANDIDATE IONS . .174 7.1. THE 138 BA + SINGLE-ION SYSTEM . 174 7.2. THE 88 SR + SINGLE ION SYSTEM . 176 7.3. THE CA + SINGLE-ION SYSTEM . 176 7.4. THE HG + SINGLE-ION SYSTEM . 177 7.5. THE YB + SINGLE-ION SYSTEM . 178 7.6. THE IN + SINGLE-ION SYSTEM . 180 7.7. OTHER ION SYSTEMS . 181 8. ABSOLUTE FREQUENCY MEASUREMENT OF SINGLE-ION TRANSITIONS . 181 9. CONCLUSION . 186 REFERENCES . 186 CONTENTS XI RECENT DEVELOPMENTS IN MICROWAVE ION CLOCKS JOHN D. PRESTAGE, ROBERT L. TJOELKER, AND LUTE MALEKI . 195 1. INTRODUCTION . 195 2. LASER-COOLED STANDARDS . 198 3. LAMP-BASED STANDARDS . 200 4. RECENT RESULTS WITH LITS/CSO COMBINATION . 200 5. HARMONIC LINEAR ION TRAPS . 202 6. MULTIPOLE LINEAR ION TRAPS . 202 7. FIRST MULTIPOLE CLOCK OPERATION . 206 8. FREQUENCY OFFSETS IN MULTIPOLE ION TRAP . 208 9. SUMMARY . 209 REFERENCES . 210 PART III. CONVENTIONAL OPTICAL FREQUENCY MEASUREMENT AND MID-INFRARED FREQUENCY STANDARDS OPTICAL FREQUENCY MEASUREMENT BY CONVENTIONAL FREQUENCY MULTIPLICATION CARL O. WEISS, G. KRAMER, B. LIPPHARDT, AND H. SCHNATZ . 215 1. INTRODUCTION . 215 2. TECHNIQUES AND ELEMENTS OF FREQUENCY MULTIPLICATION CHAINS . 216 2.1. RADIATION SOURCES . 216 2.2. RESONATORS . 219 2.3. NONLINEAR ELEMENTS . 221 3. COHERENCE . 229 4. FREQUENCY MULTIPLICATION TO THE 88 THZ CH4 REFERENCE POINT . 233 5. CH4 OPTICAL FREQUENCY STANDARDS . 237 6. FREQUENCY MEASUREMENT ERROR SOURCES . 238 7. CH4 FREQUENCY MEASUREMENTS . 239 8. OPTICAL (VISIBLE) FREQUENCY MEASUREMENTS . 242 9. CONCLUSION . 244 REFERENCES . 245 OPTICAL FREQUENCY MEASUREMENTS RELYING ON A MID-INFRARED FREQUENCY STANDARD G. DANIELE ROVERA AND OUALI ACEF . 249 1. INTRODUCTION . 249 2. BACKGROUND . 250 2.1. PHASE NOISE FILTERING IN THE FOURIER DOMAIN . 252 3. SYNCHRONOUS FREQUENCY COUNTING . 254 XII CONTENTS 4. THE LINK BETWEEN MICROWAVE AND THE MID-INFRARED . 256 4.1. DESIGN CRITERIA . 256 4.2. DESCRIPTION OF THE MEASUREMENT CHAIN . 258 5. PHASE NOISE MEASUREMENT IN INFRARED . 261 6. THE CO2/OSO4 SECONDARY FREQUENCY STANDARD . 262 7. MEASUREMENTS OF OPTICAL FREQUENCY STANDARDS USING THE CO2/OSO4 SECONDARY FREQUENCY STANDARD . 266 7.1. MEASUREMENTS OF METHANE STABILIZED HE-NE LASER . 266 7.2. MEASUREMENTS OF A IODINE-STABILIZED HE-NE LASER . 266 7.3. FREQUENCY MEASUREMENT OF THE 5S 1 / 2 (F = 3) - 5D 5 / 2 (F = 5) TWO-PHOTON TRANSITION IN RUBIDIUM . 267 8. CONCLUSION . 269 REFERENCES . 269 PART IV. ADVANCED OPTICAL FREQUENCY MEASUREMENT AND SYNTHESIS MEASURING THE FREQUENCY OF LIGHT WITH MODE-LOCKED LASERS THOMAS UDEM, JORG REICHERT, RONALD HOLZWARTH, MARKUS NIERING, MARTIN WEITZ, AND THEODOR W. HANSCH . 275 1. INTRODUCTION . 275 2. OPTICAL FREQUENCY INTERVAL DIVIDER (OFID) . 276 3. FREQUENCY COMBS FROM MODE-LOCKED LASERS . 277 4. DETERMINING THE MODE NUMBER . 279 5. FURTHER BROADENING OF THE FREQUENCY COMB . 281 6. THE CREATION OF A LOW-NOISE BEAT NOTE . 282 7. STABILIZING THE FREQUENCY COMB . 284 8. THE ACCURACY OF THE FREQUENCY COMBS . 285 9. THE ABSOLUTE FREQUENCY OF THE CESIUM D\ LINE . 287 10. THE ABSOLUTE FREQUENCY OF THE HYDROGEN 15-2S TRANSITION . 289 REFERENCES . 292 GENERATION AND METROLOGICAL APPLICATION OF OPTICAL FREQUENCY COMBS HARALD R. TELLE AND UWE STERR . 295 1. INTRODUCTION . 295 2. TYPES OF OFCGS . 295 2.1. REGENERATIVE SYSTEMS WITH INTRALOOP SSB MODULATORS . 295 2.2. OFCGS WITH INTERNAL PHASE MODULATORS . 297 2.3. MODE-LOCKED LASERS AS ACTIVE FREQUENCY COMB GENERATORS . 302 3. POSSIBLE APPLICATIONS OF OFCGS . 302 3.1. MEASUREMENT OF OPTICAL FREQUENCY DIFFERENCES . 303 CONTENTS XIII 3.2. MEASUREMENT OF ABSOLUTE FREQUENCIES . 303 4. CONCLUSION . 310 REFERENCES . 310 GENERATION OF EXPANDED OPTICAL FREQUENCY COMBS MOTONOBU KOUROGI, KAZUHIRO IMAI, BAMBANG WIDIYATMOKO, AND MOTOICHI OHTSU . 315 1. INTRODUCTION . 315 2. CONVENTIONAL OFCG BASED ON EO MODULATORS . 316 2.1. OPTICAL FREQUENCY COMB GENERATOR (OFCG) . 317 2.2. DISPERSION LIMIT . 319 2.3. ADDITIVE PHASE NOISE CHARACTERISTICS OF THE OFC . 320 3. EXPANSION OF THE OFC SPAN . 321 3.1. EXPERIMENT . 321 3.2. NOISE ANALYSIS . 323 3.3. ACCURACY OF THE OFC . 327 4. A METHOD OF FREQUENCY DIFFERENCE MEASUREMENT BY USING SECOND HARMONIC GENERATION . 330 5. SUMMARY . 333 REFERENCES . 334 ACCURATE OPTICAL-FREQUENCY SYNTHESIS ANDRE N. LUITEN . 337 1. INTRODUCTION . 337 2. FREQUENCY INSTABILITY MEASURES . 339 3. TECHNIQUES OF OPTICAL SYNTHESIS . 340 3.1. ACOUSTO-OPTIC TECHNIQUES . 341 . 3.2. NONLINEAR TECHNIQUES . 341 3.3. OPTICAL FREQUENCY COMB GENERATORS (OFCGS) . 346 3.4. OFFSET INJECTION-LOCKING TECHNIQUES . 349 3.5. ELECTRONIC PHASE LOCKING . 350 3.6. OPTICAL FREQUENCY INTERVAL DIVIDERS (OFIDS) . 352 4. ABSOLUTE OPTICAL SYNTHESIS . 354 4.1. OPTICAL PARAMETRIC OSCILLATOR-BASED FREQUENCY CHAINS . 354 4.2. SUBHARMONIC GENERATION CHAINS . 354 4.3. FREQUENCY-INTERVAL DIVISION CHAINS . 355 5. SYNTHESIS RESOLUTION AND ACCURACY . 359 5.1. OFID PHASE NOISE . 360 5.2. FREQUENCY COMB INTERVAL FLUCTUATIONS . 372 6. FREQUENCY STABILITY OF AN OPTICAL SYNTHESIZER . 374 6.1. PREDICTED ALLAN VARIANCE OF THE UWA/PTB FREQUENCY CHAIN . 378 XIV CONTENTS 7. CONCLUSION . 380 REFERENCES . 381 INDEX . 389
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series	Topics in applied physics
series2	Topics in applied physics
spelling	Frequency measurement and control advanced techniques and future trends ; with 9 tables Andre N. Luiten (ed.) Berlin [u.a.] Springer 2001 XIV, 394 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Topics in applied physics 79 Frequenzmessung Frequencies of oscillating systems Measurement Frequenzmessung (DE-588)4155409-7 gnd rswk-swf Frequenzstabilität (DE-588)4155413-9 gnd rswk-swf Optoelektronik (DE-588)4043687-1 gnd rswk-swf Frequenzstabilität (DE-588)4155413-9 s Optoelektronik (DE-588)4043687-1 s DE-604 Frequenzmessung (DE-588)4155409-7 s Luiten, Andre N. 1968- Sonstige (DE-588)122190971 oth Topics in applied physics 79 (DE-604)BV008007504 79 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009054182&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Frequency measurement and control advanced techniques and future trends ; with 9 tables Topics in applied physics Frequenzmessung Frequencies of oscillating systems Measurement Frequenzmessung (DE-588)4155409-7 gnd Frequenzstabilität (DE-588)4155413-9 gnd Optoelektronik (DE-588)4043687-1 gnd
subject_GND	(DE-588)4155409-7 (DE-588)4155413-9 (DE-588)4043687-1
title	Frequency measurement and control advanced techniques and future trends ; with 9 tables
title_auth	Frequency measurement and control advanced techniques and future trends ; with 9 tables
title_exact_search	Frequency measurement and control advanced techniques and future trends ; with 9 tables
title_full	Frequency measurement and control advanced techniques and future trends ; with 9 tables Andre N. Luiten (ed.)
title_fullStr	Frequency measurement and control advanced techniques and future trends ; with 9 tables Andre N. Luiten (ed.)
title_full_unstemmed	Frequency measurement and control advanced techniques and future trends ; with 9 tables Andre N. Luiten (ed.)
title_short	Frequency measurement and control
title_sort	frequency measurement and control advanced techniques and future trends with 9 tables
title_sub	advanced techniques and future trends ; with 9 tables
topic	Frequenzmessung Frequencies of oscillating systems Measurement Frequenzmessung (DE-588)4155409-7 gnd Frequenzstabilität (DE-588)4155413-9 gnd Optoelektronik (DE-588)4043687-1 gnd
topic_facet	Frequenzmessung Frequencies of oscillating systems Measurement Frequenzstabilität Optoelektronik
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009054182&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV008007504
work_keys_str_mv	AT luitenandren frequencymeasurementandcontroladvancedtechniquesandfuturetrendswith9tables

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