Verfügbarkeit: The quantum beat

The quantum beat: the physical principles of atomic clocks

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Bibliographische Detailangaben
1. Verfasser:	Major, Fouad G. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	New York [u.a.] Springer 1998
Schlagworte:	Cronometría - Historia Relojes atómicos Atomuhr
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Literaturangaben
Beschreibung:	XIV, 475 S. Ill., graph. Darst.
ISBN:	0387983015

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MARC


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Datensatz im Suchindex

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adam_text	F.G. MAJOR THE QUANTUM BEAT THE PHYSICAL PRINCIPLES OF ATOMIC CLOCKS WITH 230 ILLUSTRATIONS SPRINGER CONTENTS PREFACE VII CHAPTER 1. CELESTIAL AND MECHANICAL CLOCKS 1 1.1 CYCLIC EVENTS IN NATURE 1 1.2 THE CALENDAR 2 1.3 SOLAR ECLIPSES AS TIME MARKERS 3 1.4 THE TIDES 5 1.5 THE SIDEREAL DAY 7 1.6 THE PRECESSION OF THE EQUINOXES 8 1.7 THE SUNDIAL 9 1.8 THE ASTROLABE 10 1.9 WATER CLOCKS 12 1.10 TOWER CLOCKS 14 1.11 THE PENDULUM CLOCK 16 1.12 THE SPRING-BALANCE-WHEEL CLOCK 19 CHAPTER 2. OSCILLATIONS AND FOURIER ANALYSIS 23 2.1 OSCILLATORY MOTION IN MATTER 23 2.2 SIMPLE HARMONIC MOTION 24 2.3 FORCED OSCILLATIONS: RESONANCE 26 2.4 WAVES IN EXTENDED MEDIA 29 2.5 WAVE DISPERSION '. 32 2.6 LINEAR AND NONLINEAR MEDIA 33 2.7 NORMAL MODES OF VIBRATION 35 2.8 PARAMETRIC EXCITATIONS 37 2.9 FOURIER ANALYSIS 39 2.10 COUPLED OSCILLATIONS 43 CHAPTER 3. OSCILLATORS 47 3.1 FEEDBACK IN AMPLIFIERS 47 3.2 CONDITIONS FOR OSCILLATION 50 X CONTENTS 3.3 RESONATORS 51 3.4 THE KLYSTRON MICROWAVE TUBE 54 3.5 OSCILLATORS AT OPTICAL FREQUENCY 56 3.6 STABILITY OF OSCILLATORS: NOISE 58 CHAPTER 4. QUARTZ CLOCKS 63 4.1 HISTORICAL ANTECEDENTS 63 4.2 PROPERTIES AND STRUCTURE OF CRYSTALLINE QUARTZ 66 4.3 MODES OF VIBRATION OF A QUARTZ PLATE 71 4.4 X-RAY CRYSTALLOGRAPHY 73 4.5 FABRICATION OF QUARTZ RESONATORS 75 4.6 FACTORS AFFECTING THE RESONANCE FREQUENCY 76 4.7 THE QUARTZ RESONATOR AS A CIRCUIT ELEMENT 78 4.8 FREQUENCY STABILITY 80 4.9 FREQUENCY/TIME MEASUREMENT 84 4.10 QUARTZ WATCHES 88 CHAPTER 5. THE LANGUAGE OF ELECTRONS, ATOMS, AND QUANTA 89 5.1 CLASSICAL LORENTZ THEORY 89 5.2 SPECTRUM OF BLACKBODY RADIATION 90 5.3 THE QUANTUM OF RADIATION: THE PHOTON 91 5.4 BOHR'S THEORY OF THE HYDROGEN ATOM 92 5.5 THE SCHRSDINGER WAVE EQUATION 94 5.6 QUANTUM NUMBERS OF ATOMIC STATES 96 5.7 THE VECTOR MODEL 98 5.8 THE SHELL STRUCTURE OF ELECTRON STATES 99 5.9 THE PAULI EXCLUSION PRINCIPLE 101 5.10 SPECTROSCOPIC NOTATION 103 5.11 THE HYPERFINE INTERACTION 104 5.12 ELECTRONS IN SOLIDS: THE BAND THEORY 109 CHAPTER 6. MAGNETIC RESONANCE 117 6.1 INTRODUCTION 117 6.2 ATOMIC MAGNETISM 117 6.3 THE ZEEMAN EFFECT 118 6.4 GYROSCOPIC MOTION IN A MAGNETIC FIELD 122 6.5 INDUCING TRANSITIONS 123 6.6 MOTION OF GLOBAL MOMENT: THE BLOCH THEORY 127 CONTENTS XI 6.7 PRODUCTION OF GLOBAL POLARIZATION 128 CHAPTER 7. CORRECTIONS TO OBSERVED ATOMIC RESONANCE 141 7.1 HOMOGENEOUS AND INHOMOGENEOUS BROADENING 142 7.2 THE SPECIAL THEORY OF RELATIVITY 144 7.3 THE DOPPLER EFFECT 146 7.4 THE THERMAL DOPPLER LINE SHAPE 148 7.5 SUB-DOPPLER LINE WIDTHS: THE DICKE EFFECT 150 7.6 THE GENERAL THEORY OF RELATIVITY 153 7.7 CONCLUSION 159 CHAPTER 8. THE RUBIDIUM CLOCK 161 8.1 THE REFERENCE HYPERFINE TRANSITION 161 8.2 THE BREIT-RABI FORMULA 163 8.3 OPTICAL PUMPING OF HYPERFINE POPULATIONS 164 8.4 OPTICAL HYPERFINE PUMPING: USE OF AN ISOTOPIC FILTER 167 8.5 THE USE OF BUFFER GASES 169 8.6 LIGHT SHIFTS IN THE REFERENCE FREQUENCY 172 8.7 RUBIDIUM FREQUENCY CONTROL OF QUARTZ OSCILLATOR 173 8.8 FREQUENCY STABILITY OF THE RUBIDIUM STANDARD 176 8.9 THE MINIATURIZATION OF ATOMIC CLOCKS 178 CHAPTER 9. THE CLASSICAL CESIUM STANDARD 179 9.1 DEFINITION OF THE UNIT OF TIME 179 9.2 IMPLEMENTATION OF THE DEFINITION: THE CESIUM STANDARD 180 9.3 THE PHYSICAL DESIGN 183 9.4 THE RAMSEY SEPARATED FIELD 190 9.5 DETECTION OF TRANSITIONS 196 9.6 FREQUENCY-LOCK OF FLYWHEEL OSCILLATOR TO CESIUM 198 9.7 CORRECTIONS TO THE OBSERVED CS FREQUENCY 201 CHAPTER 10. ATOMIC AND MOLECULAR OSCILLATORS: MASERS 205 10.1 THE AMMONIA MASER 205 10.2 BASIC ELEMENTS OF A BEAM MASER 206 10.3 INVERSION SPECTRUM IN NH 3 207 10.4 THE ELECTROSTATIC STATE SELECTOR 210 10.5 STIMULATED RADIATION IN THE CAVITY 214 10.6 THRESHOLD FOR SUSTAINED OSCILLATION 216 XII CONTENTS 10.7 SOURCES OF FREQUENCY INSTABILITY 217 10.8 THE RUBIDIUM MASER 221 CHAPTER 11. THE HYDROGEN MASER 223 11.1 INTRODUCTION 223 11.2 THE HYPERFINE STRUCTURE OF H GROUND STATE 225 11.3 PRINCIPLES OF THE HYDROGEN MASER 228 11.4 PHYSICAL DESIGN OF THE H-MASER 235 11.5 AUTOMATIC CAVITY TUNING 245 11.6 THE WALL SHIFT IN FREQUENCY 247 11.7 THE H-MASER SIGNAL HANDLING 250 11.8 HYDROGEN AS APASSIVE RESONATOR 253 CHAPTER 12. THE CONFINEMENT OF IONS 255 12.1 INTRODUCTION 255 12.2 STATE SELECTION IN IONS 256 12.3 THE PENNING TRAP 259 12.4 THE PAUL HIGH-FREQUENCY TRAP 267 CHAPTER 13. THE NASA*MERCURY ION EXPERIMENT 285 13.1 INTRODUCTION 285 13.2 GROUND STATE HYPERFINE STRUCTURE OF HG 1 " 286 13.3 HYPERFINE OPTICAL PUMPING 288 13.4 DETECTION OF MICROWAVE RESONANCE 292 13.5 MICROWAVE RESONANCE LINE SHAPE 293 13.6 THE MAGNETIC FIELD CORRECTION 296 13.7 THE PHYSICAL APPARATUS ;. 297 13.8 HG + ION FREQUENCY STANDARD SYSTEM 301 CHAPTER 14. OPTICAL FREQUENCY OSCILLATORS: LASERS 307 14.1 INTRODUCTION 307 14.2 THE RESONANCE LINE WIDTH OF OPTICAL CAVITIES 307 14.3 CONDITIONS FOR SUSTAINED OSCILLATION 312 14.4 THE SUSTAINED OUTPUT POWER 317 14.5 LASER OPTICAL ELEMENTS 318 14.6 THE RUBY LASER 322 14.7 THE HELIUM-NEON LASER 327 14.8 THE ARGON ION LASER 332 CONTENTS XIII 14.9 LIQUID DYE LASERS : 334 14.10 SEMICONDUCTOR LASERS 339 CHAPTER 15. LASER COOLING OF ATOMS AND IONS 345 15.1 INTRODUCTION 345 15.2 LIGHT PRESSURE 346 15.3 SCATTERING OF LIGHT FROM SMALL PARTICLES 348 15.4 SCATTERING OF LIGHT BY ATOMS 350 15.5 OPTICAL FIELD GRADIENT FORCE 352 15.6 DOPPLER COOLING 353 15.7 THEORETICAL LIMIT 356 15.8 OPTICAL "MOLASSES" 357 15.9 POLARIZATION GRADIENT COOLING: "THE SISYPHUS EFFECT" 358 15.10 LASER COOLING OF TRAPPED IONS 363 CHAPTER 16. APPLICATION OF LASERS TO MICROWAVE STANDARDS 369 16.1 OBSERVATION OF INDIVIDUAL IONS 369 16.2 THE COOLING LASER SYSTEM 373 16.3 LASER DETECTION OF HYPERFINE RESONANCE 376 16.4 LASER-BASED MERCURY ION STANDARDS 382 16.5 THE PROPOSED YTTERBIUM ION STANDARD 383 16.6 BEATING LIOUVILLE'S THEOREM 384 16.7 THE CESIUM FOUNTAIN STANDARD 390 CHAPTER 17. MEASUREMENT OF OPTICAL FREQUENCY 395 17.1 INTRODUCTION 395 17.2 DEFINITION OF THE METER IN TERMS OF THE SECOND 396 17.3 THEORETICAL LIMIT TO SPECTRAL PURITY OF LASERS 396 17.4 STABILIZATION OF LASERS USING ATOMIC/MOLECULAR RESONANCES 399 17.5 STABILIZATION OF THE HE-NE LASER 400 17.6 STABILIZATION OF THE CO 2 LASER 406 17.7 STABILIZATION USING TWO-PHOTON TRANSITIONS 407 17.8 FREQUENCY COMPARISONS IN THE OPTICAL RANGE 409 17.9 MEASURING OPTICAL FREQUENCIES RELATIVE TO A MICROWAVE STANDARD 414 CHAPTER 18. APPLICATIONS: TIME-BASED NAVIGATION 419 18.1 INTRODUCTION 419 XIV CONTENTS 18.2 "DEEP" SPACE PROBES 419 18.3 VERY LONG BASELINE INTERFEROMETRY 420 18.4 THE MOTION OF THE EARTH 421 18.5 RADIO NAVIGATION 422 18.6 NAVIGATION BY SATELLITE 429 18.7 THE GLOBAL POSITIONING SYSTEM (GPS) 432 CHAPTER 19. CONCLUDING THOUGHTS 449 19.1 THE SYNCHRONIZATION OF CLOCKS 449 19.2 THE DIRECTION OF TIME 451 19.3 TIME-REVERSAL SYMMETRY IN SUBATOMIC EVENTS 453 REFERENCES 457 FURTHER READING 461 INDEX 465
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spelling	Major, Fouad G. Verfasser aut The quantum beat the physical principles of atomic clocks F. G. Major New York [u.a.] Springer 1998 XIV, 475 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Literaturangaben Cronometría - Historia Relojes atómicos Atomuhr (DE-588)4259141-7 gnd rswk-swf Atomuhr (DE-588)4259141-7 s DE-604 GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008145130&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Major, Fouad G. The quantum beat the physical principles of atomic clocks Cronometría - Historia Relojes atómicos Atomuhr (DE-588)4259141-7 gnd
subject_GND	(DE-588)4259141-7
title	The quantum beat the physical principles of atomic clocks
title_auth	The quantum beat the physical principles of atomic clocks
title_exact_search	The quantum beat the physical principles of atomic clocks
title_full	The quantum beat the physical principles of atomic clocks F. G. Major
title_fullStr	The quantum beat the physical principles of atomic clocks F. G. Major
title_full_unstemmed	The quantum beat the physical principles of atomic clocks F. G. Major
title_short	The quantum beat
title_sort	the quantum beat the physical principles of atomic clocks
title_sub	the physical principles of atomic clocks
topic	Cronometría - Historia Relojes atómicos Atomuhr (DE-588)4259141-7 gnd
topic_facet	Cronometría - Historia Relojes atómicos Atomuhr
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008145130&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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