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Bibliographische Detailangaben
Hauptverfasser:	Huebner, Walter F. 1928- (VerfasserIn), Barfield, W. David (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	New York [u.a.] Springer 2014
Schriftenreihe:	Astrophysics and space science library 402
Schlagworte:	Strahlungstransport Opazität
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XVIII, 572 S. graph. Darst.
ISBN:	146148796X 9781461487968

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Datensatz im Suchindex

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adam_text	Contents Introduction ................................................................. 1 Definitions ................................................................... 9 2.1 Local Thermodynamic Equilibrium (LTE) .......................... 9 2.2 The Equation of Radiative Transfer ................................. 10 2.3 The Planck or Emission Mean Opacity ............................. 17 2.4 The Rosseland Mean Opacity ........................................ 20 2.5 Other Mean Opacities ................................................ 22 2.6 Differences Between the Various Mean Opacities .................. 22 2.7 Summary .............................................................. 27 Atomic and Molecular Structure ......................................... 29 3.1 Structure of Atoms and Ions ......................................... 30 3.1.1 The Hartree-Fock Model ................................... 31 3.1.2 Approximations to the Hartree-Fock Model .............. 34 3.1.3 The Thomas-Fermi Model ................................. 37 3.1.4 The Hartree-Fock-Slater Method ......................... 38 3.1.5 Parametric Potentials ....................................... 38 3.1.6 The Hartree-Plus-Statistical-Exchange Method ......... 40 3.1.7 The Multi-configuration Approximation .................. 40 3.1.8 The Close-Coupling Approximation ...................... 41 3.1.9 Isoelectronic Sequences .................................... 43 3.1.10 The Screening Constant Method ........................... 43 3.1.11 The Quantum Defect Method .............................. 49 3.1.12 Multiple Scattering Xa Method ........................... 51 3.2 Structure of Molecules and Molecular Ions ......................... 52 3.2.1 Diatomic Molecules ........................................ 53 Intemuclear Potential Function and Vibrational Motion ................................. 55 Electronic States and Angular Momentum Coupling. . 59 Xl xïi Contents 3.2.2 Polyatomic Molecules ...................................... 62 Vibrations ................................................ 62 Rotation and Rotation-Vibration Interaction .......... 64 Symmetric Top Molecules ........................... 64 Asymmetric Top Molecules ......................... 65 Ab Initio Calculations of Rotation-Vibration Wave Functions and Energies ....................... 66 Electronic States ......................................... 68 Ab Initio Calculation of Wave Functions and Potential Surfaces ............................... 69 3.3 Summary .............................................................. 78 4 Equation of State (EOS) ................................................... 81 4.1 Atomic Processes ..................................................... 83 4.1. 1 The Model of the Mean Ion with Unfolded Term Splitting (MIUTS) ................................... 84 The Screening Constant Method ....................... 85 Continuum Lowering, Eo ............................ 89 The Thomas—Fermi Model ............................. 91 Zink s Parameterized T—F Model ....................... 93 The Thomas—Fermi Shell Model ....................... 95 The Relativistic Hartree-Fock-Slater Model .......... 97 The Muffin-Tin Model ................................ 98 Unfolding the Mean Ion Model ......................... 98 4.1.2 The Method of Detailed Configuration Accounting with Explicit Term Splitting (DCAETS) ..... 99 4.2 Molecular Processes .................................................. 103 4.2.1 Homogeneous Chemical Equilibrium in the Gas Phase .. 104 4.2.2 Disequilibrium Abundances ................................ 114 4.2.3 Heterogeneous Chemical Equilibrium Between Gas and Condensed Phases ...................... 115 4.3 Summary .............................................................. 120 5 Radiative Cross Sections ................................................... 123 5.1 Basic Concepts ....................................................... 123 5.1.1 Classical Description ....................................... 124 5.1.2 Quantum Mechanical Description ......................... 131 5.2 Absorption in the Single-Electron Dipole Approximation ......... 133 5.2.1 Atomic Cross Sections ..................................... 133 Bound—Bound Processes ................................ 133 Bound-Free Processes .................................. 145 Free-Free Processes ..................................... 149 5.2.2 Molecular Cross Sections .................................. 152 Physics of Molecular Transitions ....................... 152 Rotational Transitions ............................... 153 Vibration-Rotation Band Strengths ................. 155 Contents xiii Diatomic Molecules .............................. 155 Polyatomic Molecules ............................ 158 Electronic Transitions ................................ 160 Diatomic Molecules .............................. 160 Polyatomic Molecules ............................ 163 Photoionization ...................................... 172 Photodissociation .................................... 174 Methods for Determining Molecular Band Strengths, Oscillator Strengths, and Cross Sections ............... 178 Experimental Methods ............................... 178 Theoretical Calculations of Molecular Transition Probabilities .............................. 181 Н -F, LCAO-MO, and MCA Methods ........... 181 Photoionization ................................... 193 Photodissociation ................................. 201 5.3 Collective Effects ..................................................... 208 5.3.1 Atomic Auger Transitions .................................. 209 5.3.2 Molecular Autoionization and Predissociation ............ 212 5.3.3 Collective Response of the Atom or Molecule asaWhole .................................................. 213 The Polarization Propagator Method ............... 218 5.3.4 Interaction of Radiation with the Plasma .................. 225 5.4 Scattering ............................................................. 227 5.4.1 Nonrelativistic Scattering .................................. 227 5.4.2 Form Factors ................................................ 229 5.4.3 Molecular Scattering ....................................... 230 5.4.4 Calculation of the Scattering Cross Section from the Absorption Cross Section ........................ 233 5.5 Relativity, Multipole, and Other Effects ............................. 235 5.5.1 Bound-Free Processes ...................................... 235 5.5.2 Bound-Bound Processes ................................... 241 5.5.3 Free-Free Processes ........................................ 242 Electron—Ion Interaction ................................ 242 Electron—Electron Interaction .......................... 243 5.6 Extinction by Grains and Droplets .................................. 244 5.6.1 Basic Relationships ......................................... 245 5.6.2 Spherical Particles .......................................... 246 Uniform Particles ........................................ 246 Homogeneously Layered Core—Mantle Particles ...... 252 5.6.3 Nonspherical Particles ...................................... 254 Symmetric Nonspherical Particles ...................... 254 Randomly Shaped Particles ............................. 255 5.6.4 Refractive Indices and Particle Size Distributions ........ 259 5.7 Summary .............................................................. 260 xiv Contents 6 Continuum Transitions .................................................... 263 6.1 Bound—Free Absorption .............................................. 263 6.1.1 Photoionization ............................................. 263 6.1.2 Photodissociation ........................................... 265 6.2 Free—Free Absorption ................................................ 268 6.2.1 Free—Free Absorption by Ions ............................. 268 6.2.2 Free—Free Absorption by Neutrals ......................... 273 6.3 Compton Scattering by Free Electrons .............................. 277 6.4 Extinction by Grains and Droplets .................................. 283 6.5 Summary .............................................................. 285 7 Bound—Bound (Line) Transitions ......................................... 287 7.1 Line Transitions of Thermally Excited States ....................... 287 7.1.1 Atomic Line Transitions .................................... 287 7.1.2 Molecular Vibration-Rotation Line Transitions .......... 288 7.1.3 Vibronic Transitions ........................................ 291 7.2 Line Broadening ...................................................... 291 7.2.1 Doppler Broadening ........................................ 294 7.2.2 Broadening by Electron Impacts ........................... 296 The Impact Approximation ............................. 296 Nonhydrogenic Neutral Atoms ...................... 296 Nonhydrogenic Ions ................................. 299 Hydrogen ............................................. 308 Hydrogenic Ions ..................................... 309 7.2.3 Broadening by Ion Impacts ................................ 309 The Quasi-Static Approximation ....................... 309 7.2.4 Broadening by Neutral Impacts ............................ 311 Resonance Broadening .................................. 311 Van der Waals Broadening .............................. 312 Pressure Broadening of Vibration—Rotation Lines ___ 312 Infrared and Microwave Continuum Absorption ............................................ 318 7.2.5 The Total Line Shape for Absorption Lines ............... 320 7.2.6 Auto-Ionization, Auger Transition, Dielectronic Recombination ............................... 320 7.3 Line Splitting and Line Smearing ................................... 321 7.3.1 Multiplet Splitting .......................................... 321 7.3.2 Statistical Configuration Splitting ......................... 323 Unresolved Transition Arrays and Supertransition Arrays ............................. 328 7.3.3 Molecular Band Models .................................... 334 Just-Overlapping Lines Models and Smeared-Line Models ................................................... 334 Diatomics ............................................. 334 Polyatomics .......................................... 340 Contents xv Other Band Models ..................................... 341 Regular Models...................................... 341 Regular Models for Collision-Broadened Lines (Elsasser Model)........................... 341 Regular Models for Doppler-Broadened Lines............................................... 342 Regular Models for Voigt Profile Lines......... 342 Random Line Models................................ 342 Random Doppier Models......................... 344 Random Mixed Lorentz — Doppler Models..... 345 Hybrid Models.................................... 345 Other Methods for Molecular Bands ................... 348 Time-Correlation Function Method for Absorption 348 Time-Correlation Method for Vibronic Spectral Functions ................................... 350 The Method of Moments ............................ 354 7.3.4 Opacity Distribution Function (ODF) and Statistical Opacity Sampling (SOS) Techniques ...................... 356 The Opacity Distribution Function (ODF) ............. 357 Statistical Opacity Sampling (SOS) Techniques ....... 361 7.3.5 Isotope Effects .............................................. 363 7.4 Resonance Scattering ................................................ 363 7.5 Summary .............................................................. 365 8 Collision-Induced Absorption (CIA) ..................................... 369 8.1 Pure Rotational and Translational (i.e., A J = О) Transitions (Far Infrared) ............................................ 371 8.1.1 Collision-Induced Absorption in a One-Component Gas .................................. 373 8.1.2 Rare Gas Mixtures .......................................... 375 8.2 Transitions in the Fundamental Vibrational Band (Near Infrared) ........................................................ 375 8.2.1 Diatomic Gas Pairs (e.g., H2-H2) .......................... 375 8.2.2 Rare Gas Atom - Nonpolar Diatomic Pairs ............... 379 8.3 Collision-Induced Absorption in Mixtures of Nonpolar Gases ___ 380 8.4 Summary .............................................................. 381 9 Electron Conduction and Electron Opacity ............................. 383 9.1 Conduction by Nondegenerate Nonrelativistic Electrons .......... 384 9.2 Conduction by Degenerate Nonrelativistic Electrons .............. 386 9.2.1 Conduction in a Partially Degenerate Magnetoplasma ... 392 9.3 Conduction by Degenerate Relativistic Electrons .................. 392 9.4 Summary .............................................................. 404 xvi Contents 10 Equations of State and Opacities for Mixtures .......................... 405 10.1 The Opacity for Atomic Mixtures .................................. 405 10.2 Molecular Mixtures .................................................. 408 10.3 Summary .............................................................. 410 11 Limits, Approximations, Scaling, and Interpolations .................. 411 11.1 Opacity Limits ........................................................ 411 11.2 Approximations ...................................................... 414 11.2.1 Atomic Ions ................................................. 414 11.2.2 Rectangular Box Approximation Molecular Band Model ................................................. 416 11.3 Opacity Scaling ....................................................... 418 11.4 Interpolation of Opacities ............................................ 418 11.5 Summary .............................................................. 419 12 Uncertainties in Models, Methods, and Calculations ................... 421 12.1 Physical Processes .................................................... 421 12.2 Chemical Abundances ............................................... 424 12-3 Mathematical Procedures ............................................ 424 12-4 Summary .............................................................. 424 13 Comparisons with Experiments ........................................... 425 13-І Model and Code Comparisons ....................................... 425 13.1.1 Pure Elements ............................................... 425 13.1.2 Astrophysical Mixtures ..................................... 426 13.2 Experimental Situation ............................................... 427 13.2.1 Molecules ................................................... 427 13.2.2 High-Temperature Plasmas ................................ 434 13.2.3 Collision-Induced Absorption .............................. 440 13.3 Summary .............................................................. 442 14 Special Cases ................................................................ 443 14.1 Opacity Trenches ..................................................... 443 14.2 Opacity of Light Element Mixtures Simulating a Heavier Element Opacity .......................................... 444 14.3 Non-LTE Opacity .................................................... 444 14.3.1 Two-Temperature Opacity ................................. 445 14.3.2 General Non-LTE Opacity ................................. 446 14.4 Summary .............................................................. 455 Appendix A: List of Symbols .................................................. 457 Appendix В : Glossary and Abbreviations .................................... 469 Contents xvii Appendix С: Some Mathematical Functions ................................. 479 С. 1 Bessel Functions .......................................... 479 C. 1.1 Bessel Functions of the First, Second, and Third Kind ......................... 479 Bessel Functions of the First Kind ............. 479 Bessel Functions of the Second Kind (Also Called Weber or Neumann Functions) ............................ 480 Bessel Functions of the Third Kind (Also Called Hankel Functions) ................ 481 C. 1.2 Modified Bessel Functions (Also Called Basset Functions) of the First and Second Kind ................................ 482 Modified Bessel Functions of the First Kind ................................. 482 Modified Bessel Functions of the Second Kind .............................. 483 С 1.3 Spherical Bessel Functions ..................... 484 Spherical Bessel Function of the First Kind ................................. 484 Spherical Bessel Function of the Second Kind .............................. 484 Spherical Bessel Functions of the Third Kind (Spherical Hankel Functions) ............ 485 C.2 Binomial Function (Hypergeometric Distribution) ...... 485 C.2.1 Binomial Distribution ........................... 486 C.3 Fermi Integrals ............................................ 486 C.3. 1 Non-relativistic Fermi Integrals ................ 486 Approximations ................................. 487 C.3.2 Relativistic Fermi Integrals ..................... 488 C.4 Hermite Polynomials ..................................... 488 C.5 Generalized Laguerre Polynomials ...................... 489 C.6 Legendre Polynomials .................................... 489 C.6. 1 Unassociated Legendre Polynomials ........... 489 C.6.2 Associated Legendre Polynomials ............. 490 C/7 Coulomb Corrections to Pressure and Entropy of an Ideal Gas of Ions .......................... 492 C.8 Spherical Harmonics ...................................... 492 С.ЅЛ Scalar Spherical Harmonics .................... 492 C.8.2 Vector Spherical Harmonics .................... 493 xviii Contents Appendix D: Units, Conversion Factors, and Fundamental Physical Constants for Opacities .............................. 495 Appendix E: Some Relevant Websites ........................................ 501 References ......................................................................... 503 Subject Index ..................................................................... 563
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spelling	Huebner, Walter F. 1928- Verfasser (DE-588)1145667279 aut Opacity Walter F. Huebner ; W. David Barfield New York [u.a.] Springer 2014 XVIII, 572 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Astrophysics and space science library 402 Strahlungstransport (DE-588)4183546-3 gnd rswk-swf Opazität (DE-588)4494369-6 gnd rswk-swf Strahlungstransport (DE-588)4183546-3 s Opazität (DE-588)4494369-6 s DE-604 Barfield, W. David Verfasser (DE-588)119485785X aut Erscheint auch als Online-Ausgabe 978-1-4614-8797-5 Astrophysics and space science library 402 (DE-604)BV000000296 402 Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=026743919&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Huebner, Walter F. 1928- Barfield, W. David Opacity Astrophysics and space science library Strahlungstransport (DE-588)4183546-3 gnd Opazität (DE-588)4494369-6 gnd
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title	Opacity
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title_full	Opacity Walter F. Huebner ; W. David Barfield
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