Verfügbarkeit: Nonlinear laser spectroscopy

Nonlinear laser spectroscopy:

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Bibliographische Detailangaben
Hauptverfasser:	Letochov, Vladilen S. 1939- (VerfasserIn), Čebotaiev, Veniamin P. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin u.a. Springer 1977
Schriftenreihe:	Springer series in optical sciences 4
Schlagworte:	Nichtlineare Laserspektroskopie
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XVI, 466 S. graph. Darst.
ISBN:	3540080449 0387080449

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MARC


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Datensatz im Suchindex

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adam_text	Contents 1. Introduction ....................................................... 1 1.1 Doppler Broadening of Optical Spectral Lines .................. 1 1.2 Methods of Linear Optical Spectroscopy Without Doppler Broadening .................................................... 4 1.3 Saturation Laser Spectroscopy ................................. 12 1.4 Two-Photon Laser Spectroscopy ................................. 29 1.5 Problem of Very Narrow Optical Resonances ..................... 31 References .................................................... 34 2. Elements of the Theory of Resonant Interaction of a Laser Field and Gas ................................................ 37 2.1 Schrb dinger Equation—Transition Probabilities ................ 37 2.2 Density-Matrix Equation ....................................... 46 2.3 Polarization and Level Populations. Rate Equations ............ 51 2.4 Absorption Coefficient of Running Wave ........................ 54 2.5 Absorption Saturation by Standing Wave ........................ 58 2.5.1 Weak Saturation. Lamb Dip .............................. 58 2.5.2 Strong Saturation. Level-Population Effects ............ 60 2.5.3 Coherence and Nonuniformity of Standing-Wave Field Effects .......................................... 66 2.6 Strong and Weak Counter-Running Waves ......................... 72 2.6.1 Level-Population Effects ............................... 73 2.6.2 Coherence Effects ...................................... 74 2.7 Unidirectional Weak and Strong Waves .......................... 80 2.8 Stark Effect in a Light Field at Doppi er-Broadened Transitions ................................................... 83 References .................................................... 85 3. Narrou Saturation Résonances on Dopţler-Broaieneâ Transition ......................................................... 87 3.1 Resonance Effects in a Single-Mode Laser with Saturated Absorption .................................................... 87 3.1.1 Equations of Single-Mode Laser ......................... 88 VIII 3.1.2 Output Power ........................................... 90 3.1.3 Frequency and Spectrum ................................. 105 3.2 Resonances in Absorption Saturation by Independent Waves ...... 113 3.2.1 Probe Counter-Laser-Wave Method ........................ 117 3.2.2 Counter Laser Waves of Different Frequencies ........... 122 3.2.3 Laser Waves with Different Polarization ................ 123 3.2.4 Spatially Separated Laser Waves ........................ 125 3.3 Density Resonance of Excited Particles ........................ 133 3.3.1 Resonances in Two-Level Atom and Rotational- Vi brati onal Molecular Transitions ...................... 133 3.3.2 Fluorescence-Cell Method and Connected Methods ......... 138 3.4 Resonance Effects at Mode Interaction ......................... 141 3.4.1 Interaction of Two Axial Modes ......................... 142 3.4.2 Interaction of Two Counter-Running Waves in a Ring Laser ............................................. 146 References .................................................... 151 4. Narrow Resonances of Two-Photon Transitions Without Doppler Broadening ......................................................... 155 4.1 Two-Photon Absorption ......................................... 156 4.1.1 Transition Probability and Selection Rules ............. 157 4.1.2 Two-Photon Resonance Shape for Gas in Counter- Running Lightwaves .................................... 163 4.1.3 Power Shift and Power Broadening of Two-Photon Resonances ............................................. 169 4.1.4 Two-Photon Resonances at Atomic Transitions ............ 174 4.1.5 Two-Photon Resonances on Molecular Transitions ......... 176 4.2 Raman Scattering in Gases Without Doppler Broadening .......... 177 4.3 Spectral Shape of Resonance Fluorescence ...................... 179 References .................................................... 182 5. Nonlinear Résonances on Coupled Doppler-Broadened ľro-Ksitions ........................................................ 185 5.1 Two-Quantum and Step-by-Step Transitions ...................... 189 5.2 Fundamental Equations of TLS .................................. 194 5.2.1 Equations for Probability Amplitude .................... 196 5.2.2 Equation for Density Matrix of Three-Level Atoms ....... 199 5.2.3 Transition Probability in a Three-Level Scheme ......... 203 5.3 Line Shape of the Coupled Transitions in a Gas ................ 207 5.3.1 Line Shape of Radiation Far from Resonance (Ω»ύο»ύ) ............................................. 208 їх 5.3.2 Line Shape of Absorption in Weak Fields under Resonance .............................................. 211 5.3.3 Strong Field ........................................... 214 5.4 Methods of Research of Resonance Phenomena in Three-Level Systems ....................................................... 217 5.4.1 Resonances in Spontaneous Emission ..................... 218 5.4.2 Resonances on Induced Transitions ...................... 222 5.4.3 Mode-Crossing Resonances ............................... 225 5.5 Investigations of Stimulated Raman Scattering (SRS) ........... 227 5.5.1 Selection of Transitions ............................... 227 5.5.2 Description of Experiment for Observing Resonant SRS ... 228 5.5.3 Line Shape of Resonant SRS ............................. 231 5.5.4 Polarization Characteristics of Resonant SRS ........... 232 5.6 Resonances at Saturation of Stimulated Raman Scattering in the Standing-Wave Field .................................... 234 5.7 Lamb Dip of Coupled Closely Spaced Transitions. Crossing Resonances .................................................... 238 References .................................................... 243 6. Narvou Nonlinear Resonances in upecftroscopy ........................ 245 6.1 Resolution of Nonlinear Resonances ............................ 246 6.1.1 Absorption Saturation Resonances ....................... 246 6.1.2 Competitive Resonances ................................. 251 6.1.3 Spectroscopy Within a Radiative Width at Two- Quantum Transitions .................................... 253 6.1.4 Influence of Finite Line Width of Laser Radiation ....... 255 6.2 Limiting Resolution of Narrow Resonances ...................... 257 6.2.1 Influence of Collisions ................................ 257 6.2.2 Influence of Flight Effects on the Lamb-Dip Shape ...... 262 6.2.3 Methods of Reduction of Average Flight Width ........... 265 6.2.4 Potentiality of Nonlinear Spectroscopy with Resolution that is not Restricted by the Finite Flight Time ............................................ 272 6.2.5 Influence of a Quadratic Doppler Effect on ч Resonance Shape ........................................ 280 6.3 Information Capacity of Nonlinear Spectroscopy Methods ........ 282 6.4 Sensitivity of Nonlinear Laser-Spectroscopy Methods ........... 283 6.4.1 Comparison of the Sensitivity of Methods ............... 283 6.4.2 Limiting Sensitivity of Methods ........................ 284 References .................................................... 286 χ 7. Nonlinear Atomie Laser Spectroscopy ................................ 289 7.1 Measurement of a Natural Width and Lifetimes of Levels ........ 289 7.2 Collision Broadening of Nonlinear Resonances .................. 300 7.2.1 Principal Experimental Results ......................... 300 7.2.2 Mechanisms of Collisions ............................... 304 7.2.3 Investigation of Relaxation Processes on Individual Level s by TLS Methods .................................. 309 7.3 Investigation of Level Structures .....·........................ 317 7.3.1 Isotopie Structure ..................................... 317 7.3.2 Investigations of Zeeman and Stark Effects ............. 319 7.3.3 Spectroscopy of Forbidden Transitions .................. 325 References .................................................... 329 8. Nonlinear Molecular Laser Spectroscopy ............................. 331 8.1 Investigation of Level Structures ............................. 332 8.1.1 Electron Vibrational-Rotational Transitions of Molecules .............................................. 333 8.1.2 Hyperfine Structure .................................... 334 8.1.3 Stark and Zeeman Effects on Vibrational-Rotational Transitions ............................................ 337 8.1.4 Beat Measurements of Rotational Constants and Isotopie Shifts ........................................ 342 8.2 Collision Broadening of Resonances on Vibrational- Rotational Transitions ........................................ 343 8.2.1 Collision Broadening of Contours of Absorption Lines ... 344 8.2.2 Broadening of Nonlinear Resonances ..................... 345 8.2.3 Homogeneous Saturation of Vibrational-Rotational Transitions at Low Pressure ............................ 349 8.2.4 Nonlinear Dependence of Resonance Widths on Pressure ... 353 8.2.5 Dependence of Collision Broadening of Resonances on Gas Density ......................................... 354 8.3 Use of Resonances in Investigations of Nonelastic Collisions .................................................... 359 8.4 Applied Molecular Spectroscopy ................................ 362 References .................................................... 363 3. окіїієаг ľlarrow Resonances in Quantum Electronics ................. 367 9.1 Selection of Modes by Nonlinear Absorption .................... 367 9.1.1 Longitudinal Modes ..................................... 367 9.1.2 Transverse Modes ....................................... 371 9.2 Production of Narrow Gain Lines ............................... 375 XI 9.2.1 Narrow Gain Resonances in Two-Level Scheme ............. 376 9.2.2 Narrow Gain Resonances in Three-Level Scheme ........... 379 9.3 Laser-Frequency Stabilization by Means of Narrow Resonances .................................................... 383 9.3.1 Method of Internal Nonlinear-Absorption Cell ........... 386 9.3.2 Method Using an External Nonlinear-Absorption Cell ..... 396 9.3.3 Modification of the Nonlinear-Absorption-Cell Method ... 398 9.3.4 Frequency Stabilization in Two-Mode Operation .......... 402 References .................................................... 404 10. Narrow Nonlinear Resonances in Experimental Physios ............... 407 10.1 Measurement of Fundamental Physical Constants ................ 407 10.1.1 Speed of Light ....................................... 408 10. 10.1.2 Rydberg Constant and Transition Frequencies in Hydrogen Atom ........................................ 411 10.1.3 Optical Transitions in Positronium Atoms ............. 416 10.1.4 Experimental Check of Constancy of Fundamental Constants ............................................ 419 10.2 Quantum and Relativistic Effects ............................. 421 10.2.1 Second-Order Doppler Effect .......................... 421 10.2.2 Recoil Effect ........................................ 425 10.2.3 Mass-Energy Rel ation ................................. 428 10.2.4 Splitting of Energy Levels of Left- and Right- Hand Molecules ....................................... 431 10.3 Lasery Spectroscopy Without Doppler Broadening .............. 433 10.3.1 Connection Between Optical and Nuclear Transitions ... 433 10.3.2 Electronic-Nuclear Transitions in Atoms .............. 437 10.3.3 Molecular-Nuclear Transitions ........................ 438 10.3.4 Double γ and Optical Resonance ....................... 442 10.3.5 Narrow Laser-Induced Resonances of 2γ Annihilation Radiation ............................... 445 10.3.6 Some Prospects of Laser Nuclear Spectroscopy ......... 449 10.4 Selective Excitation of Atoms and Molecules with Overlapping Absorption Lines ............................................. 451 References ................................................... 453 11. Conslusior. ........................................................ 457 Author Index .......................................................■·- 459 Subject Index ......................................................... 461
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spelling	Letochov, Vladilen S. 1939- Verfasser (DE-588)108766993 aut Nonlinear laser spectroscopy V. S. Letokhov ; V. P. Chebotayev Berlin u.a. Springer 1977 XVI, 466 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Springer series in optical sciences 4 Nichtlineare Laserspektroskopie (DE-588)4171755-7 gnd rswk-swf Nichtlineare Laserspektroskopie (DE-588)4171755-7 s DE-604 Čebotaiev, Veniamin P. Verfasser aut Springer series in optical sciences 4 (DE-604)BV000000237 4 Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=001474598&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Letochov, Vladilen S. 1939- Čebotaiev, Veniamin P. Nonlinear laser spectroscopy Springer series in optical sciences Nichtlineare Laserspektroskopie (DE-588)4171755-7 gnd
subject_GND	(DE-588)4171755-7
title	Nonlinear laser spectroscopy
title_auth	Nonlinear laser spectroscopy
title_exact_search	Nonlinear laser spectroscopy
title_full	Nonlinear laser spectroscopy V. S. Letokhov ; V. P. Chebotayev
title_fullStr	Nonlinear laser spectroscopy V. S. Letokhov ; V. P. Chebotayev
title_full_unstemmed	Nonlinear laser spectroscopy V. S. Letokhov ; V. P. Chebotayev
title_short	Nonlinear laser spectroscopy
title_sort	nonlinear laser spectroscopy
topic	Nichtlineare Laserspektroskopie (DE-588)4171755-7 gnd
topic_facet	Nichtlineare Laserspektroskopie
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=001474598&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV000000237
work_keys_str_mv	AT letochovvladilens nonlinearlaserspectroscopy AT cebotaievveniaminp nonlinearlaserspectroscopy

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