Verfügbarkeit: Radiation trapping in atomic vapours

Radiation trapping in atomic vapours:

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1. Verfasser:	Molisch, Andreas F. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Oxford Clarendon Pr. 1998
Schriftenreihe:	Oxford science publications
Schlagworte:	Chemistry, Physical and theoretical Radiation trapping Vapors Atom Strahlung Strahlungsfalle
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XXVI, 510 S. graph. Darst.
ISBN:	0198538669

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Datensatz im Suchindex

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adam_text	RADIATION TRAPPING IN ATOMIC VAPOURS ANDREAS F. MOLISCH AND BERNHARD R OEHRY INSTITUTE FOR COMMUNICATIONS AND RADIO FREQUENCY ENGINEERING, TECHNICAL UNIVERSITY, VIENNA CLARENDON PRESS * OXFORD 1998 CONTENTS LIST OF SYMBOLS IXX I BACKGROUND INTRODUCTION 3 1.1 THE PHYSICAL PROCESS OF RADIATION TRAPPING 3 1.2 HISTORICAL OVERVIEW 6 1.3 APPLICATIONS OF RADIATION TRAPPING 9 1.4 OUTLINE OF THE BOOK 12 ATOMIC LINESHAPES 15 2.1 THE EINSTEIN THEORY OF RADIATION 15 2.2 BROADENING MECHANISMS 20 2.2.1 NATURAL BROADENING 20 2.2.2 DOPPLER BROADENING 20 2.2.3 PRESSURE BROADENING 22 2.2.4 VOIGT LINESHAPES 24 2.3 STRENGTH RULES FOR FINE AND HYPERFINE SPLITTING 30 COLLISIONS, QUENCHING, AND PARTICLE DIFFUSION 33 3.1 COLLISIONAL CROSS-SECTIONS 33 3.2 COLLISIONS BETWEEN ATOMS OF THE SAME KIND 35 3.3 COLLISIONS BETWEEN ATOMS OF DIFFERENT KINDS 35 3.4 COLLISIONS WITH ELECTRONS; IONIZATION AND RECOMBINATION 36 3.5 PARTICLE DIFFUSION 37 3.6 HYPERFINE-STRUCTURE INTERMIXING 41 3.7 FINE-STRUCTURE INTERMIXING 42 * THE CLASSICAL RADIATION TRAPPING PROBLEM FORMULATION OF THE CLASSICAL PROBLEM 49 4.1 THE MILNE EQUATION 50 4.2 THE HOLSTEIN EQUATION 51 4.2.1 DERIVATION OF THE HOLSTEIN EQUATION 51 4.2.2 IDEALIZED GEOMETRIES 56 4.2.3 SIMPLIFYING ASSUMPTIONS IN THE DERIVATION OF THE HOL STEIN EQUATION 59 4.3 THE MULTIPLE-SCATTERING REPRESENTATION 64 4.4 THE EQUATION OF RADIATIVE TRANSFER 67 4.5 THE ESCAPE FACTOR 69 CONTENTS MATHEMATICAL METHODS FOR THE HOLSTEIN EQUATION 5.1 THE VARIATIONAL TECHNIQUE 5.2 EXACT SOLUTIONS IN THE HIGH-OPACITY CASE 5.2.1 VAN TRIGT S SOLUTION 5.2.2 THE GEOMETRICAL QUANTIZATION TECHNIQUE 5.2.3 THE FOURIER TRANSFORM TECHNIQUE 5.3 THE PIECEWISE-CONSTANT APPROXIMATION 5.4 THE PROPAGATOR FUNCTION METHOD 5.5 OTHER COMPUTATION METHODS METHODS FOR THE MULTIPLE-SCATTERING REPRESENTATION 6.1 MONTE CARLO SIMULATIONS 6.2 ANALYTICAL SOLUTIONS FITTING EQUATIONS AND PHYSICAL INTERPRETATION 7.1 DOPPLER AND LORENTZ LINES 7.2 VOIGT LINES 7.3 HYPERFINE SPLIT LINES 7.4 HIGHER-ORDER MODES 7.5 STEADY-STATE SOLUTIONS OF THE HOLSTEIN EQUATION 7.6 THE EMERGENT SPECTRUM THE MILNE AND EDDINGTON APPROXIMATIONS 8.1 THE ORIGINAL MILNE THEORY 8.2 THE ANGLE APPROXIMATION 8.3 THE GENERALIZED EDDINGTON APPROXIMATION 8.4 THE FREQUENCY APPROXIMATION MATHEMATICAL METHODS FOR THE TRANSFER EQUATION 9.1 DISCRETE ORDINATE SOLUTION 9.2 THE FEAUTRIER TECHNIQUE 9.2.1 THE BASIC FEAUTRIER TECHNIQUE 9.2.2 MODIFIED FINITE-DIFFERENCING EQUATIONS 9.2.3 CHOICE OF THE BOUNDARY CONDITIONS 9.3 THE VARIABLE EDDINGTON FACTOR TECHNIQUE 9.4 MODIFIED FEAUTRIER APPROACHES 9.4.1 THE RYBICKI REORGANIZATION 9.4.2 THE CORE SATURATION METHOD 9.4.3 THE IMPLICIT INTEGRAL METHOD 9.4.4 SPLITTING ALGORITHMS 9.4.5 QUADRATURE PERTURBATION 9.4.6 THE DISCONTINUOUS FINITE-ELEMENT (DFE) CONTENTS ** III GENERALIZED TRAPPING PROBLEMS 10 SIMPLE GENERALIZATIONS 165 10.1 BRANCHING AND QUENCHING 165 10.2 THREE-LEVEL ATOMS 167 10.3 REFLECTING WALLS 171 10.3.1 DIFFUSELY REFLECTING WALLS 171 10.3.2 SPECULARLY REFLECTING WALLS 173 10.4 PARTICLE DIFFUSION 179 10.4.1 FORMULATION AND DIRECT SOLUTION 179 10.4.2 THE MODAL COMBINATION TECHNIQUE 181 10.4.3 THE DISCRETE-ORDINATE TECHNIQUE 186 10.4.4 RESULTS 192 10.5 INHOMOGENEOUS DISTRIBUTION OF ABSORBERS 193 10.6 TWO- AND THREE-DIMENSIONAL GEOMETRIES 197 10.6.1 THE FINITE CYLINDER 197 10.6.2 THE PARALLELEPIPED 201 10.6.3 THE TORUS AND THE HOLLOW CYLINDER 201 11 PARTIAL FREQUENCY REDISTRIBUTION 204 11.1 THE PHYSICAL PICTURE OF PER 204 11.1.1 REDISTRIBUTION FUNCTIONS IN THE ATOMIC REST FRAME 205 11.1.2 REDISTRIBUTION FUNCTIONS IN THE LABORATORY REST FRAME 208 11.1.3 ANGLE-AVERAGED REDISTRIBUTION FUNCTIONS 210 11.1.4 PURE DOPPLER BROADENING 211 11.1.5 DOPPLER PLUS NATURAL BROADENING 214 11.1.6 DOPPLER PLUS COLLISIONAL BROADENING 218 11.1.7 DOPPLER, NATURAL, PLUS COLLISIONAL BROADENING 219 11.1.8 BRANCHING TRANSITIONS 220 11.1.9 THE HOLSTEIN EQUATION WITH PFR 221 11.2 VARIATIONAL SOLUTION 223 11.3 THE VELOCITY DISTRIBUTION OF EXCITED ATOMS 230 11.4 THE PROPAGATOR FUNCTION METHOD AND THE PCA METHOD 232 11.5 MONTE CARLO SIMULATIONS 236 11.6 TRANSFER EQUATION FORMULATIONS 238 11.7 FREQUENCY DIFFUSION 240 11.8 LARGE-SCALE PARTICLE FLOW 242 12 POLARIZATION 247 12.1 INTRODUCTION 247 12.2 FORMAL SOLUTION OF THE VECTOR TRANSFER EQUATION 248 XIV CONTENTS 12.3 TRAPPING PROBLEMS WITH POLARIZATION 250 12.3.1 THE POLARIZATION-FREE APPROXIMATION 250 12.3.2 THE HOLSTEIN EQUATION WITHOUT MAGNETIC FIELD 251 12.3.3 THE HOLSTEIN EQUATION WITH MAGNETIC FIELD 253 12.4 MONTE CARLO SIMULATIONS 254 12.5 PHYSICAL EFFECTS 258 13 NON-LINEAR RADIATION TRAPPING 262 13.1 WHEN DO NON-LINEARITIES OCCUR? 263 13.2 INTERACTION OF STRONG LASER RADIATION WITH ATOMS 267 13.2.1 SELECTION OF VELOCITY GROUPS 268 13.2.2 BURN-THROUGH AND ONE-DIMENSIONALITY 270 13.3 STEADY-STATE SOLUTIONS 271 13.3.1 COMPLETE LINEARIZATION 272 13.3.2 OPERATOR PERTURBATION 276 13.3.3 DIRECT ITERATION 285 13.3.4 APPROXIMATE TECHNIQUES 287 13.3.5 MONTE CARLO SIMULATIONS 287 13.4 TRANSIENT PROBLEMS 288 13.4.1 NUMERICAL SOLUTION OF THE NON-LINEAR HOLSTEIN EQUA- TION 288 13.4.2 ANALYTICAL APPROXIMATIONS 291 13.4.3 NUMERICAL SOLUTION OF THE TRANSFER EQUATION 293 13.4.4 PHYSICAL EFFECTS 294 13.4.5 MONTE CARLO SIMULATIONS 298 13.5 MULTILEVEL SYSTEMS 299 13.5.1 COMPLETE LINEARIZATION IN THE MULTILEVEL CASE 299 13.5.2 OPERATOR PERTURBATION TECHNIQUES FOR MULTILEVEL SYS- TEMS 300 13.5.3 THE EQUIVALENT TWO-LEVEL ATOM 301 13.5.4 STEADY-STATE IN THREE-LEVEL ATOMS 303 13.5.5 TIME-DEPENDENT DEPLETION 307 14 COMBINATION OF TECHNIQUES 313 14.1 THE FOUR BASIC QUESTIONS 313 14.2 LINEAR TRAPPING WITH COMPLETE FREQUENCY REDISTRIBUTION 314 14.2.1 SOLUTION METHODS FOR THE CLASSICAL HOLSTEIN EQUATION 314 14.2.2 INCLUSION OF OTHER PHYSICAL EFFECTS 317 14.3 NONLINEAR TRAPPING WITH CFR 319 14.3.1 TAKING THE NON-LINEARITY INTO ACCOUNT 320 14.3.2 MULTILEVEL ATOMS 320 14.3.3 REQUIRED ACCURACY 321 14.4 TRAPPING WITH PARTIAL FREQUENCY REDISTRIBUTION 321 CONTENTS XV IV APPLICATIONS 15 MEASUREMENTS IN CHEMICAL PHYSICS 326 15.1 ATOMIC LIFETIMES 327 15.2 COLLISION CROSS-SECTIONS 328 15.3 IONIZATION CROSS-SECTIONS 331 15.4 QUENCHING AND INTERMIXING CROSS-SECTIONS 335 15.5 ATOMIC BEAMS 338 15.6 ATOMIC DENSITIES 339 15.7 RADIATION TRAPPING IN COLD ATOMS 340 15.8 OTHER MEASUREMENTS 344 16 SIMULATION OF OPTICALLY PUMPED GAS LASERS 346 16.1 TRAPPING IN GAS LASERS 346 16.2 LOW-OPACITY FORMULATION 347 16.2.1 BASIC FORMULATION 347 16.2.2 APPROXIMATE SOLUTION FOR SINGLE-MODE OPERATION 350 16.2.3 CONCLUSIONS 352 16.3 THE MERCURY-NITROGEN LASER 354 16.3.1 THE OPERATING PRINCIPLE 354 16.3.2 SETUP OF THE RATE EQUATIONS 355 16.3.3 CONCLUSIONS 358 17 ATOMIC LINE FILTERS 361 18 DISCHARGE LAMPS AND PLASMAS 368 18.1 INTRODUCTION 368 18.2 THE THEORY OF DISCHARGE LAMPS 369 18.3 RADIATION TRAPPING IN DISCHARGE LAMPS 372 18.4 DECREASING RADIATION TRAPPING IN LAMPS 376 18.5 THE OPTOGALVANIC EFFECT 379 18.6 PLASMAS 381 18.7 CONCLUDING REMARKS 383 V APPENDICES A ATOMIC STRUCTURE 387 A.L MODELS OF THE ATOMIC STRUCTURE 387 A. 1.1 THE BOHR-RUTHERFORD MODEL 387 A. 1.2 THE SCHROEDINGER EQUATION 388 A.2 THE HYDROGEN ATOM 388 A.3 THE PERIODIC TABLE OF ELEMENTS 391 A.4 ALKALI ATOMS 392 A.4.1 LIFTING OF THE /-DEGENERACY IN ALKALI ATOMS 392 A.4.2 FINE STRUCTURE OF ALKALI ATOMS 394 A.5 THE HELIUM ATOM 397 XVI CONTENTS * D A.6 THE ALKALINE EARTH ELEMENTS A.7 TRIVALENT ELEMENTS A.8 HYPERFINE STRUCTURE AND ISOTOPE SPLITTING A.8.1 HYPERFINE STRUCTURE A.8.2 ISOTOPE SPLITTING A.9 EFFECTS OF EXTERNAL MAGNETIC AND ELECTRIC FIELDS A.9.1 THE ZEEMAN EFFECT A.9.2 THE STARK EFFECT VALUES OF THE AK, M MATRIX ELEMENTS FOR THE NUMERICAL SOLUTION OF THE HOLSTEIN EQUATION B.L THE SLAB * .2 THE CYLINDERMETHOD 1 .3 THE CYLINDER*METHOD 2 B.4 THE SPHERE PUBLICLY AVAILABLE SOFTWARE FOR THE COMPUTATION OF RADIATION TRAPPING C.L RAD-TRAP C.2 MCTRAP C.3 SLAB3 C.4 ALTAIR C.5 TLUSTY C.6 OTHER PROGRAMS FITTING EQUATIONS FOR THE EIGENVALUES AND EIGENFUNCTIONS OF THE HOLSTEIN EQUATION D.L THE SLAB D.2 THE CYLINDER D.3 THE SPHERE 399 399 399 399 401 401 401 402 403 403 404 406 409 413 413 415 418 419 420 421 422 422 422 423 E FINITE DIFFERENCE SOLUTION OF THE INHOMOGENEOUS EQUATION OF RADIATIVE TRANSFER IN A FINITE CYLINDER 427 F THE DENSITY MATRIX 433 F. 1 THE DENSITY MATRIX FOR ATOMIC STATES 433 F.2 THE DENSITY MATRIX FOR PHOTONS 434 F.3 INTERACTION OF ATOMS AND RADIATION 436 F4 STATE MULTIPOLES 437 F.4.1 DEFINITION OF TENSOR OPERATORS 437 F.4.2 DEFINITION OF STATE MULTIPOLES 438 G HIGH-FIELD EFFECTS 440 G. 1 ABSORPTION AND EMISSION COEFFICIENTS OF HOMOGENEOUSLY BROAD ENED LINES 440 G.2 AC-STARK SPLITTING AND MOLLOW TRIPLETS 441 CONTENTS XVII G.3 EFFECTS OF AC-STARK SPLITTING ON RADIATION TRAPPING 443 G.4 THE VALIDITY OF THE TRANSFER EQUATION 444 REFERENCES 446 INDEX 501
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spelling	Molisch, Andreas F. Verfasser aut Radiation trapping in atomic vapours Andreas F. Molisch and Bernhard P. Oehry Oxford Clarendon Pr. 1998 XXVI, 510 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Oxford science publications Chemistry, Physical and theoretical Radiation trapping Vapors Atom (DE-588)4003412-4 gnd rswk-swf Strahlung (DE-588)4057849-5 gnd rswk-swf Strahlungsfalle gnd rswk-swf Atom (DE-588)4003412-4 s Strahlung (DE-588)4057849-5 s DE-604 Strahlungsfalle f Oehry, Bernhard P. Sonstige oth GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008393295&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Molisch, Andreas F. Radiation trapping in atomic vapours Chemistry, Physical and theoretical Radiation trapping Vapors Atom (DE-588)4003412-4 gnd Strahlung (DE-588)4057849-5 gnd
subject_GND	(DE-588)4003412-4 (DE-588)4057849-5
title	Radiation trapping in atomic vapours
title_auth	Radiation trapping in atomic vapours
title_exact_search	Radiation trapping in atomic vapours
title_full	Radiation trapping in atomic vapours Andreas F. Molisch and Bernhard P. Oehry
title_fullStr	Radiation trapping in atomic vapours Andreas F. Molisch and Bernhard P. Oehry
title_full_unstemmed	Radiation trapping in atomic vapours Andreas F. Molisch and Bernhard P. Oehry
title_short	Radiation trapping in atomic vapours
title_sort	radiation trapping in atomic vapours
topic	Chemistry, Physical and theoretical Radiation trapping Vapors Atom (DE-588)4003412-4 gnd Strahlung (DE-588)4057849-5 gnd
topic_facet	Chemistry, Physical and theoretical Radiation trapping Vapors Atom Strahlung Strahlungsfalle
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