Verfügbarkeit: Atoms in strong light fields

Atoms in strong light fields:

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Bibliographische Detailangaben
Hauptverfasser:	Delone, Nikolaj B. 1926-2008 (VerfasserIn), Krajnov, Vladimir P. (VerfasserIn)
Format:	Buch
Sprache:	English Russian
Veröffentlicht:	Berlin [u.a.] Springer 1985
Schriftenreihe:	Springer series in chemical physics 28
Schlagworte:	Atomen Atomes Faisceaux de photons Fotonen Integratie Optique non linéaire Processus à plusieurs photons Atoms Multiphoton processes Atom-Photon-Wechselwirkung Nichtlineare Optik Mehrphotonenprozess
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Aus dem Russ. übers.
Beschreibung:	XII, 339 S. Ill., graph. Darst.
ISBN:	3540124128 0387124128

Internformat

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Datensatz im Suchindex

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adam_text	Contents 1. Introduction ..................................................... 1 1.1 The Strong Light Field ...................................... 4 1.1.1 The Classical Nature of the Field .................... 4 1.1.2 The Parameters of a Light Field ...................... 5 1.2 The Atom .................................................... 7 1.2.1 One-Electron and Multi -Electron Approximations ....... 7 1.2.2 The Structure of Atomic Spectra ...................... 8 1.2.3 Selection Rules ...................................... 10 1.3 Interaction of an Atom and a Light Field .................... 11 1.3.1 The Dipole Approximation ............................. 11 1.3.2 The Hamiltonian of the Dipole Interaction ............ 13 1.3.3 An Atom in a Circularly Polarized Electromagnetic Field 16 1.3.4 The F loquet Theorem .................................. 18 1.3.5 Monochromatic Perturbation as a Stationary Problem ... 21 1.3.6 Exact Solutions ...................................... 23 2. Time-Dependent Perturbation Theory ............................... 24 2.1 First-Order Perturbation Theory ............................. 25 2.1.1 The System of Equations .............................. 25 2.1.2 The Probability of One-Photon Transitions ............ 25 2.1.3 Monochromatic Perturbations .......................... 26 2.1.4 Sudden Perturbations ................................. 28 2.1.5 Large Perturbation Times ............................. 29 2.1.6 The Role of the Shape of the Envelope of the Electro¬ magnetic Field ....................................... 30 2.1.7 Criteria of Applicability ............................ 30 2.2 Second-Order Perturbation Theory ............................ 31 2.2.1 Probability of a Two-Photon Transition ............... 32 2.2.2 Transitions Induced by Two Perturbations ............. 35 2.2.3 Large Perturbation Times ............................. 35 2.2.4 Sudden Perturbations ................................. 37 2.2.5 Criteria of Applicability ............................ 38 2.3 The Diagrammatic Technique for Monochromatic Perturbations .. 38 2.3.1 First-Order Perturbation Theory ...................... 39 2.3.2 Second-Order Perturbation Theory ..................... 40 2.3.3 The Rules for Constructing Diagrams .................. 41 2.3.4 Partial Summation of Diagrams ........................ 42 2.4 Perturbation Theory of Arbitrary Order ...................... 43 2.4.1 The Amplitudes of Different Processes ................ 43 2.4.2 Large Perturbation Times ............................. 43 2.4.3 Criteria for Applying Perturbation Theory of Arbitrary Order ................................................ 44 2.4.4 Convergence of Expansion Series in Perturbation Theory 46 VII 2.5 Monochromatic Perturbation and Degenerate States ............ 46 2.5.1 A Single Degenerate Level ............................ 47 2.5.2 Mixing Degenerate Levels in a Field Due to the Presence of Other Levels ...................................... 48 2.5.3 Near-Degenerate Levels ............................... 51 2.5.4 Time-Dependent Diagrams .............................. 52 2.5.5 Two-Photon Mixing of Degenerate States in Low-Frequency Fields ............................................... 53 2.5.6 One-Photon Mixing of Degenerate States in Low-Frequency Fields ............................................... 56 2.5.7 Competition Between One- and Two-Photon Mixing ....... 57 2.5.8 Approximate Degeneracy ............................... 57 2.5.9 Criteria of Applicability ............................ 57 2.6 The Green s Function in Time-Dependent Perturbation Theory .. 59 2.6.1 The Green s Function ................................. 60 2.6.2 Application of the Green s Function .................. 61 2.6.3 Realistic Atomic Potentials .......................... 62 3. The Resonance Approximation ...................................... 64 3.1 A Two-Level System in a Resonance Field ..................... 65 3.1.1 Wave Functions ....................................... 66 3.1.2 Criteria of Applicability ............................ 68 3.1.3 Adiabatic Introduction of Perturbations .............. 69 3.1.4 Sudden Perturbations ................................. 70 3.1.5 Adiabatic or Sudden Perturbation? .................... 71 3.1.6 Quasi-Energies in the Resonance Case ................. 72 3.2 Multi-Photon Resonance ...................................... 73 3.2.1 Two-Photon Resonance ................................. 74 3.2.2 Criteria of Applicability ............................ 76 3.2.3 Multi-Photon Resonance ............................... 77 3.3 Degeneracy in a Resonance Field ............................. 79 3.3.1 Equations ............................................ 79 3.3.2 Basis Solutions ...................................... 80 3.3.3 Adiabatic Introduction of a Perturbation ............. 81 3.3.4 Approximate Degeneracy ............................... 82 3.3.5 Degeneracy and the Influence of Light on an Atom ..... 83 3.4 A Two-Level System in a Circularly Polarized Electromagnetic Field ....................................................... 83 3.4.1 Statement of the Problem ............................. 84 3.4.2 Solution and Discussion .............................. 84 3.5 A Two-Level System in a Resonance Field: Time-Dependent Parameters .................................................. 85 3.5.1 The System of Equations .............................. 86 3.5.2 An Exactly Solvable Problem .......................... 86 3.5.3 The General Solution ................................. 87 3.6 A Three-Level System in Two Fields .......................... 89 3.6.1 Mixing in a Three-Level System ....................... 89 3.6.2 Zero Detuning ........................................ 91 3.6.3 Population Inversion in a Three-Level System ......... 91 4. The Adiabatic Approximation ...................................... 93 4.1 General Theory .............................................. 94 4.1.1 The Landau-Dykhne Adiabatic Approximation ............ 94 4.1.2 The Born-Fock Adiabatic Approximation ................ 95 VIII 4.2 Bound-Bound Resonance Transitions ........................... 96 4.2.1 Transition Probability per Unit Time ................. 96 4.2.2 Criterion of Applicability ........................... 98 4.2.3 The Limiting Transition in Perturbation Theory ....... 99 4.2.4 Resonance Mixing in a Two-Level System ............... 100 4.2.5 Transitions in Multi-Level Systems ................... 102 4.3 A Two-Level System in a Strong Field of Arbitrary Frequency . 105 4.3.1 Adiabatic Wave Functions ............................. 105 4.3.2 Average Populations .................................. 109 4.3.3 Results, Limiting Cases, and a Comparison with Numerical Calculations ............................... 110 4.4 Transitions Between Degenerate States ....................... 112 4.4.1 Reducing the Problem Concerning Degenerate States to One Involving a System that Has a Constant Dipole Moment ............................................... 113 4.4.2 Degeneracy and Transition Probability ................ 114 4.5 Bound-Free Transitions ...................................... 115 4.5.1 Comparison of the Perturbation in Discrete and Continuous States .................................... 116 4.5.2 Probability of a Transition in a Low-Frequency Field . 116 4.5.3 Limiting Cases ....................................... 118 5. Laser Radiation .................................................. 120 5.1 Intensity of Radiation ...................................... 121 5.1.1 Spatial-Temporal Distribution of the Intensity of Laser Radiation ............................................ 121 5.1.2 Dependence of the Intensity on the Type, the Design, and the Mode of Operation of a Laser ................. 123 5.1.3 Increasing the Intensity of Laser Radiation .......... 125 5.1.4 Varying the Intensity of Laser Radiation ___......... 126 5.1.5 Measuring the Intensity of Radiation ................. 127 5.2 Frequency of the Radiation .................................. 128 5.2.1 Changes in the Tunability and Spectral Narrowing ..... 129 5.2.2 The Single-Mode Laser ................................ 130 5.2.3 The Measurement of Laser Frequency ................... 130 5.3 The Polarization of the Radiation ........................... 131 5.4 The Monochromaticity of Laser Radiation ..................... 132 6. Experimental Aspects ............................................. 135 6.1 Atomic Target ............................................... 136 6.2 Competing Processes ......................................... 138 6.2.1 Collisions Between Identical Atoms ................... 139 6.2.2 Collisions with Electrons ............................ 140 6.3 The Self-Induced Distortion of Intense Light in Atomic Targets 143 6.4 Experimental Methods for Studying the Phenomena Produced by Strong Electromagnetic Fields Interacting with Atoms ........ 146 6.4.1 Detecting Ions ....................................... 146 6.4.2 Absorption of Light .................................. 148 6.4.3 One-Photon Absorption ................................ 149 6.4.4 Two-Photon Absorption ................................ 150 6.4.5 Multi-Photon Ionization Spectroscopy ................. 152 6.4.6 Detecting the Light Produced in the Target ........... 154 IX 6.5 The Measurement of the Main Parameters that Characterize the Interaction Between Intense Electromagnetic Radiation and an Atom ........................................................ 156 6.5.1 Degree of Nonlinearity ............................... 156 6.5.2 Multi -Photon Cross Sections .......................... 157 Nonresonant Phenomena ............................................ 161 7.1 Nonlinear Atomic Susceptibilities ........................... 163 7.1.1 The Scattering of Light and the Linear Susceptibility 164 7.1.2 The Nonlinear Scattering of Light and Nonlinear Susceptibility ....................................... 166 7.1.3 Linear and Nonlinear Susceptibilities and the Pertur¬ bation of Atomic Spectra ............................. 168 7.2 Perturbation of Isolated Atomic States ...................... 170 7.2.1 Dynamic Polarizability of an Isolated Nondegenerate Atomi с State ......................................... 171 7.2.2 Dynamic Hyper-Polarizabi lity ......................... 174 7.2.3 Criteria for Applying Perturbation Theory ............ 175 7.2.4 The Dynamic Polarizability as a Function of the Perturbing Field ..................................... 176 7.2.5 Experimental Data .................................... 177 7.3 Perturbation of Degenerate States ........................... 182 7.3.1 Two Adjacent Levels .................................. 182 7.3.2 The General Case ..................................... 184 7.3.3 A Perturbation in an Elliptically Polarized Field ___ 185 7.3.4 Perturbation of the Hydrogen Atom Spectrum ........... 186 7.4 Nonlinear Scattering of Light ............................... 195 7.4.1 The Interrelation of Nonlinear Scattering Processes Due to an External Field ............................. 195 7.4.2 Spontaneous Two-Photon Scattering .................... 197 7.4.3 Stimulated Two-Photon Emission ....................... 200 7.4.4 Hyper-Raman Scattering ............................... 201 7.4.5 Generation of the Third Harmonic ..................... 202 7.4.6 Other Processes Determined by χ(3) ................... 205 7.5 Nonresonant, Nonlinear Ionization ........................... 208 7.5.1 The Mechanisms of Nonlinear Ionization ............... 209 7.5.2 Numerical Estimates ..........·........................ 209 7.6 Ionization in a Short-Range Potential ....................... 211 7.6.1 Tunneling Ionization ................................. 212 7.6.2 Ionization by a Circularly Polarized Field ........... 212 7.6.3 Ionization by an Elliptically Polarized Field ........ 218 7.6.4 The Intermediate Case (γ2 -1) ........................ 219 7.6.5 Nonlinear Detachment of an Electron from a Negatively Charged Ion .......................................... 221 7.7 The Ionization of Atoms ..................................... 221 7.7.1 The Power-Law Dependence of the Ionization Probability on the Field Strength ................................ 222 7.7.2 Dependence of the Multi -Photon Cross Section on the Frequency and the Degree of Ellipticity of the Light 223 7.7.3 Criteria for Applying Perturbation Theory ............ 225 7.7.4 Calculation of Multi-Photon Cross Section and Their Comparison with Experimental Data .................... 227 7.7.5 The Angular Distribution of the Emitted Photoelectrons 229 7.7.6 Tunneling Ionization of Atoms (γ « 1) ................ 231 7.7.7 The Intermediate Case (γ2 ~1) ........................ 232 8. Resonance Phenomena .............................................. 233 8.1 Spontaneous Emission of Light by an Atom in a Resonance Field 236 8.1.1 The Natural Line Width ............................... 236 8.1.2 The Lorentzian Line Shape ............................ 237 8.1.3 Spontaneous Emission of Photons in a Weak Resonance Field ................................................ 239 8.1.4 Spontaneous Emission of Photons in a Strong Resonance Field ................................................ 240 8.1.5 Introduction of an External Field into the Resonance Excitation ........................................... 242 8.2 Resonance Fluorescence ...................................... 243 8.2.1 A Weak External Field ................................ 243 8.2.2 Criterion for Applying Perturbation Theory ........... 246 8.2.3 The Density-Matrix Method ............................ 247 8.2.4 Elastic (Rayleigh) Scattering in Strong Fields ....... 249 8.2.5 Inelastic Scattering ................................. 251 8.2.6 Comparison with Experiment ........................... 257 8.2.7 The Bloch-Siegert Shift .............................. 259 8.2.8 The Test Field ....................................... 261 8.2.9 Multi -Photon Resonance ............................... 262 8.3 Multi-Photon Excitation and Emission ........................ 263 8.3.1 Selection Rules for Multi-Photon Transitions ......... 264 8.3.2 The Probability of Multi-Photon Bound-Bound Transitions 265 8.3.3 Quadrupole Transitions ............................... 267 8.3.4 Multi-Photon Mixing of Resonance States .............. 269 8.3.5 Competing Processes in the Multi-Photon Excitation of Atoms ................................................ 270 8.3.6 Stimulated Multi-Photon Emission ..................... 270 8.4 Spontaneous Raman Scattering ................................ 271 8.4.1 A Weak Perturbation .................................. 273 8.4.2 Raman Scattering Frequencies for a Strong Perturbation 274 8.4.3 The Probability of Raman Scattering Under the Influence of a Strong Perturbation ............................. 275 8.4.4 Multi -Photon Raman Scattering ........................ 277 8.5 A Three-Level System in Two Resonance Fields ................ 278 8.5.1 The System of Equations .............................. 278 8.5.2 Perturbation Theory .................................. 279 8.5.3 A Strong External Field .............................. 282 8.5.4 Two Strong External Fields ........................... 284 8.6 Resonance Ioni zation of Atoms ............................... 285 8.6.1 Resonance Ionization in a Weak Field ................. 286 8.6.2 Mechanisms of Resonance Ionization in a Strong Field 288 8.6.3 Multi-Photon Ionization in a Strong Field ............ 290 8.6.4 Resonance Ionization in the Adiabatic Inversion Field 291 8.6.5 The Polarization of Electrons and Nuclei in the Event of Resonance Ionization .............................. 293 8.6.6 Angular Distribution of the Electrons in the Resonance Ioni zaton Process .................................... 298 9. Conclusion ........................................................ 300 9.1 The Role of the Non-monochromaticity of Laser Radiation ..... 300 9.1.1 Direct Multi-Photon Ionization ....................... 302 9.1.2 Tunneling Ionization in a Variable Field ............. 304 9.1.3 Multi-Photon Excitation of Atoms ..................... 305 9.1.4 Perturbation of Atomic Levels ........................ 306 XI 9.2 Many-Electron Approximation ................................. 309 9.2.1 The Dynamic Polarization of the Atomic Core .......... 309 9.2.2 Two-Electron Multi -Photon Ionization ................. 311 9.3 Ultrahigh Fields ............................................ 312 9.4 Highly Excited Atomic States in a Strong Electromagnetic Field 313 9.4.1 Radiative Transitions Between Highly Excited Atomic States ............................................... 313 9.4.2 The Dynamic Pol ari zabi lity of Highly Excited Atomic States ............................................... 315 9.4.3 Multi-Photon Ionization of Highly Excited States ..... 317 9.4.4 Tunneling Ionization from Highly Excited States ...... 318 9.4.5 Stochastic Instability of the Classical Electron in a Variable Field and the Diffusion Ionization of Highly Excited Atoms ........................................ 320 Notation Index ....................................................... 323 References, ........................................................... 325 Subject 1 ndex ........................................................ 337 XII
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author	Delone, Nikolaj B. 1926-2008 Krajnov, Vladimir P.
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id	DE-604.BV000436016
illustrated	Illustrated
indexdate	2024-07-09T15:14:00Z
institution	BVB
isbn	3540124128 0387124128
language	English Russian
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-000270062
oclc_num	10778977
open_access_boolean
owner	DE-12 DE-384 DE-19 DE-BY-UBM DE-20 DE-91G DE-BY-TUM DE-355 DE-BY-UBR DE-83 DE-188
owner_facet	DE-12 DE-384 DE-19 DE-BY-UBM DE-20 DE-91G DE-BY-TUM DE-355 DE-BY-UBR DE-83 DE-188
physical	XII, 339 S. Ill., graph. Darst.
publishDate	1985
publishDateSearch	1985
publishDateSort	1985
publisher	Springer
record_format	marc
series	Springer series in chemical physics
series2	Springer series in chemical physics
spelling	Delone, Nikolaj B. 1926-2008 Verfasser (DE-588)121178293 aut Atom v sil'nom svetovom pole Atoms in strong light fields N. B. Delone ; V. P. Krainov Berlin [u.a.] Springer 1985 XII, 339 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Springer series in chemical physics 28 Aus dem Russ. übers. Atomen gtt Atomes Atomes ram Faisceaux de photons ram Fotonen gtt Integratie gtt Optique non linéaire ram Processus à plusieurs photons Atoms Multiphoton processes Atom-Photon-Wechselwirkung (DE-588)4143332-4 gnd rswk-swf Nichtlineare Optik (DE-588)4042096-6 gnd rswk-swf Mehrphotonenprozess (DE-588)4131057-3 gnd rswk-swf Atom-Photon-Wechselwirkung (DE-588)4143332-4 s Mehrphotonenprozess (DE-588)4131057-3 s DE-604 Nichtlineare Optik (DE-588)4042096-6 s Krajnov, Vladimir P. Verfasser aut Springer series in chemical physics 28 (DE-604)BV000000670 28 Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=000270062&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Delone, Nikolaj B. 1926-2008 Krajnov, Vladimir P. Atoms in strong light fields Springer series in chemical physics Atomen gtt Atomes Atomes ram Faisceaux de photons ram Fotonen gtt Integratie gtt Optique non linéaire ram Processus à plusieurs photons Atoms Multiphoton processes Atom-Photon-Wechselwirkung (DE-588)4143332-4 gnd Nichtlineare Optik (DE-588)4042096-6 gnd Mehrphotonenprozess (DE-588)4131057-3 gnd
subject_GND	(DE-588)4143332-4 (DE-588)4042096-6 (DE-588)4131057-3
title	Atoms in strong light fields
title_alt	Atom v sil'nom svetovom pole
title_auth	Atoms in strong light fields
title_exact_search	Atoms in strong light fields
title_full	Atoms in strong light fields N. B. Delone ; V. P. Krainov
title_fullStr	Atoms in strong light fields N. B. Delone ; V. P. Krainov
title_full_unstemmed	Atoms in strong light fields N. B. Delone ; V. P. Krainov
title_short	Atoms in strong light fields
title_sort	atoms in strong light fields
topic	Atomen gtt Atomes Atomes ram Faisceaux de photons ram Fotonen gtt Integratie gtt Optique non linéaire ram Processus à plusieurs photons Atoms Multiphoton processes Atom-Photon-Wechselwirkung (DE-588)4143332-4 gnd Nichtlineare Optik (DE-588)4042096-6 gnd Mehrphotonenprozess (DE-588)4131057-3 gnd
topic_facet	Atomen Atomes Faisceaux de photons Fotonen Integratie Optique non linéaire Processus à plusieurs photons Atoms Multiphoton processes Atom-Photon-Wechselwirkung Nichtlineare Optik Mehrphotonenprozess
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=000270062&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV000000670
work_keys_str_mv	AT delonenikolajb atomvsilnomsvetovompole AT krajnovvladimirp atomvsilnomsvetovompole AT delonenikolajb atomsinstronglightfields AT krajnovvladimirp atomsinstronglightfields

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