Theory of multiphoton processes:
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
New York u.a.
Plenum Pr.
1987
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| Schriftenreihe: | Physics of atoms and molecules
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| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XV, 408 S. |
| ISBN: | 0306423170 |
Internformat
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| 245 | 1 | 0 | |a Theory of multiphoton processes |c Farhad H. M. Faisal |
| 264 | 1 | |a New York u.a. |b Plenum Pr. |c 1987 | |
| 300 | |a XV, 408 S. | ||
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| 490 | 0 | |a Physics of atoms and molecules | |
| 650 | 4 | |a Processus à plusieurs photons | |
| 650 | 4 | |a Multiphoton processes | |
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Datensatz im Suchindex
| _version_ | 1804115103301238784 |
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| adam_text | THEORY OF MULTIPHOTON PROCESSES FARHAD H. M. FAISAL^ UNIVERSITY OF
BIELEFELD BIELEFELD, FEDERAL REPUBLIC OF GERMANY PLENUM PRESS * NEW YORK
AND LONDON CONTENTS 1. ELECTRONS AND ATOMS IN A RADIATION FIELD 1 1.1.
INTRODUCTION * * * 1 1.2. THE MINIMUM-COUPLING PRESCRIPTION 1 1.3. THE
FIRST QUANTIZATION AND THE SEMICLASSICAL APPROXIMATION . . . 4 1.4. THE
GAUGE INVARIANCE AND GAUGE TRANSFORMATION OF THE SCHRODINGER EQUATION 5
1.5. THE HAMILTONIAN OF A LIGHT WAVE 6 1.6. THE DIPOLE APPROXIMATION AND
TWO FORMS OF THE INTERACTION HAMILTONIAN 8 1.7. THE WAVE FUNCTION OF A
FREE ELECTRON IN A LASER FIELD 10 1.7.1. THE WAVE FUNCTION IN THE
VELOCITY GAUGE 10 1.7.1.1. THE LINEARLY POLARIZED LASER FIELD 10
1.7.1.2. THE CIRCULARLY POLARIZED LASER FIELD 11 1.7.2. THE WAVE
FUNCTION IN THE LENGTH GAUGE 12 1.8. FROM LIGHT WAVES TO PHOTON FIELDS
12 1.8.1. THE SECOND QUANTIZATION OF LIGHT FIELDS 14 1.9. THE
HAMILTONIAN OF AN ATOM IN A MONOMODE LASER FIELD IN THE
DRESSED-OSCILLATOR REPRESENTATION 18 1.10. THE DRESSED-OSCILLATOR
ATOM-FIELD HAMILTONIAN WITH MULTIMODE LASER FIELDS 22 1.11. DRESSED
FREQUENCIES AND POLARIZATIONS OF A TWO-MODE FIELD 25 1.12. THE
LENGTH-FORM ATOM-FIELD HAMILTONIAN 27 2. THE PERTURBATION THEORY 29
2.1. INTRODUCTION 29 2.2. TIME-DEPENDENT PERTURBATION THEORY 29 2.3. THE
DIAGRAMMATIC METHOD 34 2.4. RULES FOR CONSTRUCTION OF THE DIAGRAMS 34
2.4.1. TWO-PHOTON ABSORPTION 36 2.4.2. THREE-PHOTON ABSORPTION 39 2.4.3.
FOUR-PHOTON ABSORPTION 39 IX X CONTENTS 2.4.4. SINGLE-PHOTON ABSORPTION
40 2.4.5. TWO-PHOTON ABSORPTION (TWO-MODE FIELD) 41 2.4.6.
THIRD-HARMONIC GENERATION (TWO-MODE FIELD) 42 2.4.7. STIMULATED EMISSION
OF ONE PHOTON AND ABSORPTION OF TWO PHOTONS IN A THREE-MODE INTERACTION
44 2.5. RULES FOR WRITING DOWN THE TRANSITION AMPLITUDE FROM A DIAGRAM
45 2.5.1. TWO-PHOTON ABSORPTION 46 2.6. THE RATE OF MULTIPHOTON
TRANSITION AND THE GENERALIZED CROSS SECTION 47 3. RENORMALIZATION OF
PERTURBATION THEORY 53 3.1. BREAKDOWN OF CONVENTIONAL PERTURBATION
THEORY 53 3.2. THE RESOLVENT AND THE WAVE FUNCTION 55 3.3. THE T-MATRIX
AND THE LINKED CLUSTER EXPANSION OF T 57 3.4. RELATION BETWEEN TRUE
AND REDUCED T-MATRICES 58 3.5. THE RENORMALIZED T-MATRIX 59 3.6. ENERGY
RENORMALIZATION OF EXTERNAL STATES 60 3.7. LAGRANGE EXPANSION OF THE
ENERGY SHIFT 61 3.8. ENERGY SHIFT FROM THE EFFECTIVE HAMILTONIAN 62 3.9.
THE RENORMALIZED RATE OF MULTIPHOTON TRANSITIONS 63 3.9.1. THE SINGULAR
^-FUNCTION 63 3.9.2. THE TRANSITION RATE 64 4. METHODS FOR EVALUATION OF
GENERALIZED CROSS SECTIONS 67 4.1. INTRODUCTION * . . . 67 4.2. THE
METHOD OF GREEN S FUNCTION 68 4.2.1. THE RADIAL COULOMB GREEN S FUNCTION
69 4.2.1.1. THE CLOSED-FORM REPRESENTATION 69 4.2.1.2. THE INTEGRAL
REPRESENTATION 70 4.2.1.3. THE STURMIAN REPRESENTATION 71 4.2.2. THE
QUANTUM-DEFECT RADIAL GREEN S FUNCTION 73 4.2.2.1. THE CLOSED-FORM
REPRESENTATION 73 4.2.2.2. THE PSEUDOPOTENTIAL GREEN S FUNCTION 77 4.3.
THE METHOD OF INHOMOGENEOUS DIFFERENTIAL EQUATIONS 79 4.4. THE
PSEUDOCONTINUUM-BASIS METHOD 82 4.5. THE TRUNCATED SUMMATION METHOD 85
5. NONRESONANT MULTIPHOTON IONIZATION 89 5.1. INTRODUCTION 89 5.2.
MULTIPHOTON IONIZATION OF THE HYDROGEN ATOM 90 5.2.1. TWO-PHOTON
IONIZATION OF THE HYDROGEN ATOM 92 5.2.2. THREE- AND MANY-PHOTON
IONIZATION OF HYDROGEN 97 5.3. MULTIPHOTON IONIZATION OF NONHYDROGENIC
ATOMS 102 CONTENTS XI 6. THE METHOD OF RESOLVENT EQUATIONS 119 6.1.
INTRODUCTION 119 6.2. BREAKDOWN OF PERTURBATION THEORY AT RESONANCE 119
6.3. RESOLVENT EQUATIONS: MONOMODE SEMICLASSICAL FIELD 121 6.4.
RESOLVENT EQUATIONS: MONOMODE QUANTUM FIELD 124 6.5. SEMICLASSICAL
RESOLVENT AND FLOQUET HAMILTONIAN: MULTIMODE FIELD 126 6.6. RESOLVENT
EQUATIONS: MULTIMODE QUANTUM FIELD 127 6.7. CORRESPONDENCE BETWEEN THE
TIME-DEPENDENT WAVE FUNCTIONS 128 6.8. A MODEL HAMILTONIAN AND EXPLICIT
SOLUTIONS OF THE SYSTEM OF RESOLVENT EQUATIONS 130 6.8.1. DEFINITION AND
ORIGIN OF THE MODEL HAMILTONIAN . . . . 131 6.8.2. THE RESOLVENT
EQUATIONS AND THE FOUR KINDS OF TRANSITION 133 6.8.3. SOLUTIONS OF THE
RESOLVENT EQUATIONS 134 6.8.4. PROBABILITY DISTRIBUTIONS IN MULTIPLE
CONTINUA 137 6.8.5. SOLUTIONS OF THE FRIEDRICHS-FANO MODEL 140 7. THEORY
OF EFFECTIVE HAMILTONIANS WITH STATIONARY AND TIME-DEPENDENT
INTERACTIONS 143 7.1. INTRODUCTION 143 7.2. THE EFFECTIVE MULTIPHOTON
HAMILTONIAN WITH ONE INTERMEDIATE RESONANCE 144 7.3. THE ONE-RESONANCE
RESOLVENT EQUATIONS 147 7.4. TIME DEPENDENCE OF BOUND-BOUND AND
BOUND-FREE TRANSITIONS 149 7.4.1. APPLICATION TO TWO-PHOTON RESONANT
THREE-PHOTON IONIZATION OF CS 153 7.5. GENERAL THEORY OF STATIONARY
EFFECTIVE HAMILTONIANS 155 7.5.1. SEPARATION OF RESONANT AND NONRESONANT
STATES 159 7.5.2. DERIVATION OF THE EFFECTIVE HAMILTONIAN 161 7.6.
THEORY OF TIME-VARYING EFFECTIVE HAMILTONIANS 168 7.6.1. THE
QUASI-QUANTUM ENVELOPE EQUATIONS 170 7.6.2. RENORMALIZED PERTURBATION
THEORY WITH SLOWLY VARYING FIELDS AND THE EFFECTIVE HAMILTONIAN 172
7.6.3. PROBABILITY DISTRIBUTIONS GOVERNED BY THE SLOWLY VARYING
EFFECTIVE HAMILTONIAN 176 8. THE DENSITY MATRIX METHOD 183 8.1.
INTRODUCTION ** * 183 8.2. THE PURE STATE AND INCOHERENT MIXTURES 183
8.3. EQUATION OF MOTION OF THE DENSITY MATRIX 185 8.3.1. THE HERMITIAN
CASE 186 8.3.2. THE NON-HERMITIAN CASE 186 XII CONTENTS 8.4. INCLUSION
OF SPONTANEOUS RELAXATION 188 8.5. GENERALIZED ROTATING WAVE OR
QUASI-ENERGY-SHELL APPROXIMATION 190 8.5.1. DENSITY MATRIX EQUATION FOR
A RESONANT MULTIPHOTON PROCESS 191 8.6. THEORY OF MULTIPHOTON TRANSITION
IN STOCHASTIC FIELDS 194 8.6.1. STOCHASTIC DIFFERENTIAL EQUATIONS 194
8.6.2. THE KUBO-LIOUVILLE EQUATION 195 8.6.3. EQUATION OF THE MARGINAL
AVERAGES 196 8.6.4. A MODEL OF A MONOMODE LASER FIELD 198 8.6.5.
APPLICATION TO THE RESONANCE MODEL 199 8.6.6. A MODEL OF A MULTIMODE
LASER FIELD 205 8.6.7. TWO-PHOTON RESONANT THREE-PHOTON IONIZATION 206
9. CONTINUED FRACTIONS AND RECURSIVE-ITERATIVE PERTURBATION THEORY 213
9.1. INTRODUCTION 213 9.2. THE THREE-TERM RECURRENCE RELATION 214 9.3.
THE CONTINUED-FRACTION REPRESENTATION 214 9.4. THE ELASTIC RESOLVENT 216
9.5. THE RESOLVENT FOR EMISSION AND ABSORPTION OF N PHOTONS . . . . 217
9.6. THE CONTINUED-FRACTION REPRESENTATION OF THE T-MATRIX . . . . 218
9.6.1. RECURSION RELATION FOR THE REDUCED T-MATRIX 219 9.6.2. THE
T-MATRIX FOR EMISSION AND ABSORPTION OF N PHOTONS 220 9.7.
CONTINUED-FRACTION REPRESENTATION OF A STATIONARY WAVE FUNCTION 221
9.7.1. THE N-PHOTON WAVE FUNCTION 222 9.8. THE MULTIPHOTON EIGENVALUE
PROBLEM 222 9.8.1. THE LEVEL-SHIFT OPERATOR 223 9.9. COUPLED
INHOMOGENEOUS RADIAL EQUATIONS FOR IP N 226 9.10. THE
RECURSIVE-ITERATIVE WAVE EQUATIONS 228 9.11. EVALUATIONOF THE N -PHOTON
RESOLVENT 231 9.12. THE CASE OF INTERMEDIATE RESONANCES 234 9.13. THE
TWO-MODE PROBLEM 235 9.14. THE METHOD OF CHAIN HAMILTONIANS 237 9.14.1.
REDUCTION OF A HAMILTONIAN TO A CHAIN 238 9.14.2. EIGENVALUES AND
EIGENVECTORS OF A CHAIN HAMILTONIAN 240 9.14.3. MATRIX ELEMENTS OF THE
RESOLVENT 241 9.14.4. THE TRANSITION AMPLITUDE 243 10. FLOQUET THEORY OF
MULTIPHOTON TRANSITIONS 245 10.1. INTRODUCTION 245 10.2. THE
ENERGY-DOMAIN FLOQUET METHOD 245 CONTENTS XIII 10.2.1. THE IV-ELECTRON
SCHRODINGER PROBLEM WITH A MULTIPOLAR FIELD 246 10.2.2. STRUCTURE OF THE
FLOQUET EQUATIONS WITH RETARDATION . . 247 10.2.3. THE EQUIVALENT
SOLUTIONS AND THE INDEPENDENT SOLUTIONS * 250 10.2.4. THE BIORTHONORMAL
PROPERTIES AND STATIONARY SOLUTIONS. 252 10.2.5. THE EVOLUTION MATRIX
AND THE TRANSITION PROBABILITIES . . 254 10.2.6. THE FLOQUET STATES AND
THE FLOQUET-SCHRODINGER EQUATION 255 10.2.7. THE ROVIBRATIONAL FLOQUET
HAMILTONIAN AND THE MULTIPHOTON INFRARED EXCITATION SPECTRA OF CO . . .
257 10.2.8. THE INFINITE SYSTEM OF FLOQUET EQUATIONS 264 10.2.9. PROOF
OF THE EXISTENCE OF THE FLOQUET DETERMINANT AND ITS ANALYTIC PROPERTIES
265 10.2.10. THE FLOQUET ZONES AND THE IRREDUCIBLE SET OF POLES 267
10.2.11. POLYNOMIAL REDUCTION OF THE INFINITE-ORDER SECULAR EQUATION 267
10.2.11.1. THE NONDEGENERATE SECULAR POLYNOMIAL . . . 268 10.2.12. THE
SOLUTION VECTORS 271 10.2.12.1. ALTERNATIVE FORMS OF POLYNOMIAL
COEFFICIENTS IN THE VICINITY OF RESONANCES 272 10.3. THE TIME-DOMAIN
FLOQUET METHOD 273 10.3.1. INTRODUCTION 273 10.3.2. REDUCTION OF THE
INTEGRATION INTERVAL 275 10.3.3. THE MAGNUS EXPANSION OF U(T,0) 277
10.3.4. AN EXAMPLE OF A TIME-DOMAIN FLOQUET CALCULATION . . . 282 11.
NON-HERMITIAN HAMILTONIAN THEORY OF MULTIPHOTON TRANSITIONS 287 11.1.
INTRODUCTION 287 11.2. PROPERTIES OF NON-HERMITIAN HAMILTONIANS 288
11.3. THE SOLUTION MATRIX 289 11.3.1. AN ILLUSTRATIVE CASE 291 11.4.
OPTICAL POTENTIAL CONSTRUCTION OF NON-HERMITIAN HAMILTONIANS, WAVE
FUNCTIONS, AND TRANSITION AMPLITUDES 293 11.4.1. THE CAUSAL AND
ANTICAUSAL WAVE EQUATIONS 294 11.4.2. THE CAUSAL WAVE FUNCTIONS 296
11.4.3. AMPLITUDES FOR BOUND-BOUND AND BOUND-FREE TRANSITIONS 298
11.4.4. TOTAL PROBABILITY OF MULTIPHOTON-INDUCED DECA . . . * 299
11.4.5. TIME DEPENDENCE OF MULTIPHOTON TRANSITIONS IN HYDROGEN 300
11.4.5.1. TWO-PHOTON TRANSITIONS 300 11.4.5.2. THREE-PHOTON TRANSITIONS
303 11.4.5.3. FIELD-INDUCED QUANTUM BEATS IN MULTIPHOTON IONIZATION OF H
304 XIV CONTENTS 11.5. THE MULTIPHOTON NON-HERMITIAN HAMILTONIAN
GENERATED BY ROTATION OF COORDINATES 305 11.5.1. ROTATED HYDROGENIC
FLOQUET HAMILTONIAN 307 11.5.2. TRANSITION AMPLITUDES FROM THE ROTATED
HAMILTONIAN 310 11.5.3. THE MULTIPHOTON EIGENVALUE PROBLEM AND INVERSE
ITERATION 312 11.5.4. AN EFFECTIVE HAMILTONIAN GENERATED BY THE
NON-HERMITIAN FLOQUET METHOD 317 12. THEORY OF RADIATIVE ELECTRON-ATOM
SCATTERING 323 12.1. INTRODUCTION 323 12.2. POTENTIAL SCATTERING IN A
LASER FIELD 324 12.2.1. THE FLOQUET EQUATION FOR RADIATIVE POTENTIAL
SCATTERING 325 12.2.2. ASYMPTOTIC WAVE FUNCTIONS 325 12.2.3. GREEN S
FUNCTION FOR AN ELECTRON IN A DIPOLE RADIATION FIELD 327 12.2.4. THE
SCATTERED WAVE AND THE SCATTERING AMPLITUDE . . . 329 12.2.5. EXISTENCE
OF THE STATIONARY CROSS SECTION IN A SEMICLASSICAL FIELD 330 12.2.6.
RADIATIVE SCATTERING FROM A PSEUDOPOTENTIAL 331 12.3. MULTICHANNEL
ELECTRON-ATOM SCATTERING IN A LASER FIELD . . . . 336 12.3.1. THE
FLOQUET EQUATION FOR SCATTERING 337 12.3.2. EIGENFUNCTIONS OF THE
REFERENCE HAMILTONIAN 338 12.3.3. GREEN S FUNCTION FOR THE REFERENCE
HAMILTONIAN.... 339 12.3.4. WAVE FUNCTIONS OF THE TOTAL SYSTEM AND THE
SCATTERING AMPLITUDE 340 12.3.4.1. THE RADIATIVE FIRST BORN AMPLITUDE
343 12.3.4.2. THE RADIATIVE SECOND BORN AMPLITUDE . . . . 344 12.3.5.
TARGET STATE DISTRIBUTIONS FOR RADIATIVE SCATTERING . . . 347 12.3.5.1.
STATE DISTRIBUTION: PULSED LASER 348 12.3.5.2. REDUCTION OF THE PURE
STATE TO A MIXTURE . . . 349 12.3.5.3. THE RADIATIVE ELASTIC
SCATTERING SIGNAL . . . 350 12.3.5.4. THE SCATTERING SIGNAL FOR
ADIABATIC AND SUDDEN EXCITATIONS 351 12.3.5.5. STEADY-STATE
DISTRIBUTION: CONTINUOUS-WAVE CASE 352 12.3.5.6. A TYPICAL STEADY-STATE
DISTRIBUTION 353 12.3.6. THE AMPLITUDE MATRIX IN THE STEADY-STATE CASE .
. . . 355 12.3.7. A MULTICHANNEL PSEUDOPOTENTIAL MODEL 357 12.3.7.1. THE
SCATTERING SINGULARITIES 360 12.3.7.2. POTENTIAL SCATTERING IN A LASER
FIELD 361 12.3.7.3. THE LOW-FREQUENCY LIMIT 361 12.3.7.4. THE RESONANT
INFLUENCE OF GROUND STATE H~ ON ELASTIC SCATTERING 362 CONTENTS XV
12.3.7.5. TARGET EXCITATION BY SUBTHRESHOLD SCATTERING * * 363 12.3.7.6.
THE INELASTIC AND EMISSION CROSS SECTIONS . * * 365 12.3.7.7. PHOTON
AMPLIFICATION BY SCATTERING 366 12.3.7.8. LOW-ENERGY ANGULAR
DISTRIBUTION 367 12.4. DIRECT, REARRANGEMENT, AND FULLY SYMMETRIZED
RADIATIVE SCATTERING AMPLITUDES 369 12.4.1. DIRECT AND REARRANGEMENT
AMPLITUDES 371 12.4.2. THE RADIATIVE REARRANGEMENT SCATTERING AMPLITUDE
. . 372 12.4.3. THE FULLY SYMMETRIZED RADIATIVE SCATTERING AMPLITUDE 373
12.4.4. SPIN-FLIP AND RELATED AMPLITUDES 377 12.5. RADIATIVE
CLOSE-COUPLING EQUATIONS 378 APPENDIXES 385 LA. THE FIFTY-SIX
TOPOLOGICALLY DISTINCT EIGHTH-ORDER DIAGRAMS WHICH PROVIDE THE THIRD
CORRECTION TO TWO-PHOTON ABSORPTION 386 LB. THE TWENTY-ONE TOPOLOGICALLY
DISTINCT SEVENTH-ORDER DIAGRAMS WHICH PROVIDE THE SECOND CORRECTION TO
THREE-PHOTON ABSORPTION 387 LC. THE TWENTY-EIGHT TOPOLOGICALLY DISTINCT
EIGHTH-ORDER DIAGRAMS WHICH PROVIDE THE SECOND CORRECTION TO FOUR-PHOTON
ABSORPTION 388 ID. THE THIRTY-FIVE TOPOLOGICALLY DISTINCT SEVENTH-ORDER
DIAGRAMS WHICH PROVIDE THE THIRD CORRECTION TO ONE-PHOTON ABSORPTION 389
LE. FORTY ADDITIONAL DIAGRAMS WHICH CONTRIBUTE IN THE FOURTH-ORDER TO
THE TWO-PHOTON ABSORPTION AMPLITUDE FOR A TWO-MODE FIELD WHEN THE MODES
ARE DISTINCT BUT THEIR FREQUENCIES ARE DEGENERATE 390 2. TWO-PHOTON
MATRIX ELEMENTS R FOR HYDROGEN 391 REFERENCES 393 INDEX 401
|
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| dewey-raw | 539.7/217 |
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| id | DE-604.BV000655771 |
| illustrated | Not Illustrated |
| indexdate | 2024-07-09T15:17:17Z |
| institution | BVB |
| isbn | 0306423170 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-000408807 |
| oclc_num | 14213735 |
| open_access_boolean | |
| owner | DE-12 DE-91G DE-BY-TUM DE-355 DE-BY-UBR DE-20 DE-83 DE-11 DE-188 |
| owner_facet | DE-12 DE-91G DE-BY-TUM DE-355 DE-BY-UBR DE-20 DE-83 DE-11 DE-188 |
| physical | XV, 408 S. |
| publishDate | 1987 |
| publishDateSearch | 1987 |
| publishDateSort | 1987 |
| publisher | Plenum Pr. |
| record_format | marc |
| series2 | Physics of atoms and molecules |
| spelling | Faisal, Farhad H. Verfasser aut Theory of multiphoton processes Farhad H. M. Faisal New York u.a. Plenum Pr. 1987 XV, 408 S. txt rdacontent n rdamedia nc rdacarrier Physics of atoms and molecules Processus à plusieurs photons Multiphoton processes Mehrphotonenprozess (DE-588)4131057-3 gnd rswk-swf Mehrphotonenprozess (DE-588)4131057-3 s DE-604 HEBIS Datenaustausch Darmstadt application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=000408807&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Faisal, Farhad H. Theory of multiphoton processes Processus à plusieurs photons Multiphoton processes Mehrphotonenprozess (DE-588)4131057-3 gnd |
| subject_GND | (DE-588)4131057-3 |
| title | Theory of multiphoton processes |
| title_auth | Theory of multiphoton processes |
| title_exact_search | Theory of multiphoton processes |
| title_full | Theory of multiphoton processes Farhad H. M. Faisal |
| title_fullStr | Theory of multiphoton processes Farhad H. M. Faisal |
| title_full_unstemmed | Theory of multiphoton processes Farhad H. M. Faisal |
| title_short | Theory of multiphoton processes |
| title_sort | theory of multiphoton processes |
| topic | Processus à plusieurs photons Multiphoton processes Mehrphotonenprozess (DE-588)4131057-3 gnd |
| topic_facet | Processus à plusieurs photons Multiphoton processes Mehrphotonenprozess |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=000408807&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT faisalfarhadh theoryofmultiphotonprocesses |