دانلود کتاب Spectral Line Shapes: [Vol. 1] Proceedings. Fifth International Conference Berlin (West), July 7–11, 1980

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PREFACE\nCONTENTS\nChapter I. HYDROGENIC EMITTERS IN MODERATELY DENSE PLASMAS\nTheory of Hydrogen Stark Broadening\nThe Microfield Formulation of Spectral Line Broadening\nInfluence of Different Ion Dynamical Effects on Lyman Lines\nTheory Including Non-Adiabatic Effects of Ion Dynamics\nIs Ion Dynamics Really so Important?\nStark Broadening of the Hydrogen Resonance Line L_y in Comparison to Lα and L_β\nLong Path Absorption Measurements of the Pressure-Broadened Balmer-Alpha Profile\nThe Influence of the Gas Temperature on the Central Part of the Stark Profile of Balmer Beta\nInvestigation of the Stark Broadening of Balmer Beta\nExperimental Stark Profiles of He II 3203 and He II 4686\nSome Comments on Hydrogenic Lines in a Plasma - Shifts, Asymmetries and Widths\nChapter II. TWO- AND MORE-ELECTRON EMITTERS IN MODERATELY DENSE PLASMAS\nExperimental Study of Plasma Broadened He I Lines With Forbidden Components\nStark Broadening of Isolated Ion Lines by Plasmas: Theory\nStark Broadening of Isolated Ion Lines by Plasmas: Application of Theory\nModified Semiempirical Formula for the Electron-Impact Width of Ionized Atom Lines: Theory and Applications\nOn the Systematic Trends of Stark Broadening Parameters of Isolated Lines in Plasmas\nStark Parameter Dependence on the Ionization Potential\nStark Broadening and Shift of Cs I and A1 II Lines\nExperimental and Calculated Xe I and Xe II Stark Widths\nStark Broadening of Krypton Lines\nThe Broadening of Spectral Lines by Autoionization, Radiative Transitions, and Collisions\nThe Effect of Electric Fields on Autoionization Resonances\nChapter III. HIGHLY IONIZED EMITTERS IN EXTREMELY DENSE PLASMAS\nDiagnosis of High-Density Laser Compressed Plasmas Using Spectral Line Profiles\nLine Shapes in High Density Plasmas\nLine Shapes in the Simulation of Radiative Transfer\nEmission Line Shapes From Laser Compression Plasmas\nDoppler Profiles of XUV Emission From Dense Plasmas\nStark Broadening in Hot, Dense, Laser-Produced Plasmas: Full Coulomb Electron Interactions\nIntermediate Coupling Effects on Helium-Like Ion Lines From Dense Plasmas\nBroadening of Hydrogenic X Rays Emitted by a Laser-Produced Plasma\nStark Broadening of Isolated Lines From High-Z Emitters in Dense Plasmas\nSecond-Order Corrections to Thermal Microfield in Dense Plasmas\nStark Effect in Strong Non-Homogeneous t Field\nChapter IV. LASER SPECTROSCOPY OF PLASMAS AND PLASMA SATELLITES\nLaser Spectroscopy of Plasmas in Application to Measurements of Line Shapes and Collision Rates\nInvestigation of Plasma-Satellites by Laser-Fluorescence Spectroscopy\nThe Last Truth on Plasma Satellites?\nThe Problem of Molecular Lines in the Study of Plasma Satellites\nChapter V. LINE BROADENING BY FOREIGN GASES\nModel Potential Calculations for Alkali-Rare-Gas Systems. Comparison With Experiment\nAb Initio Calculation of Potential Energy Surfaces. Adiabatic and Non-Adiabatic Representations\nQuasimolecular Interpretation of Collision Effects on Atomic Forbidden Transitions\nTheory of Spectral Line Broadening by Neutral Gas at Intermediate Densities\nMultiple Perturber Satellites: Theory and Experiment\nBlue Satellite of the K(5P-4S) Doublet Perturbed by Neon\nInteratomic Potentials for Hg-Kr From Measurements of Pressure o Broadening of the Hg-2537 Å Line\nStudy of Collision-Induced Absorption in Dipole Electronic Transitions of Alkali-Rare Gas Atom Pairs\nExperimental Study of Two-Photon Absorption of Sodium Perturbed by Collisions With Noble Gas Atoms\nBroadening and Shifts of the Resonance Lines of Neutral and Signly Ionized Mg, Ca and Sr.\nPressure Broadening and Pressure Shift of the Cadmium Intero combination Line at λ = 3261 Å\nQuasi-Static Wings of K Spectral Lines Broadened by Cs\nObservation of Non-Lorentzian Spectral Lineshapes in Na-Noble Gas Systems\nChapter VI. EXCIMERS\nAlkali-Rare Gas Excimers\nA Model for the Rare Gas Excimers With Spin Orbit Coupling. I. Interaction Potential. II. Dipole Moment\nSynchrotron Radiation Experimental Determination of Rare Gas Excimer States: Comparison With Recent Theoretical Calculation\nVUV Emission Spectroscopy of Rare Gas Excimers After keV-Electron Impact Excitation\nDetermination of Excimer Potential Curves From VUV-Fluorescence Intensities\nChapter VII. RESONANCE BROADENING\nSelf-Broadening in Metal Vapors\nQuasistatic Self-Broadening of Li and Na First Resonance Lines\nTriplet Satellite Bands in the Very Far Blue Wings of the Self- Broadened Alkali D Lines\nDiscrepancy With Theoretical Resonance Broadening on the He Line at 2.06 pm\nChapter VIII. COLLISIONAL REDISTRIBUTION OF RESONANCE RADIATION AND RELATED PHENOMENA\nRecent Developments in Line Shape Theory\nCollisional Redistribution of Resonance Radiation\nCollisional Redistribution of Strong Resonance Radiation\nCollisional Depolarization and Redistribution of Laser Radiation in Near Resonance With A ²S_1/2 +- ²P - Transition\nFar Wing Depolarization of Light: Generalized Absorption Profiles\nPower-Broadening of the Na-D Lines in a Flame Irradiated With a Pulsed Tunable Dye Laser\nUnified Theory of Pressure Broadened Absorption Spectra in Strong Radiation Fields\nLine Broadening Caused by Laser Linewidth\nAn Experimental Study of the Collision Broadening of the Na-D Doublet Lines in Flames and Absorption Cells With Ar and N₂ Perturbers\nStructured Continuum in the Fluorescence Spectrum of Cs₂\nLight-Induced Collisional Energy Transfer\nCollision Induced Pair Absorption in Pure and Mixed Alkalis\nCollision Induced Scattering of Light in Mercury Vapour: Some Experimental and Theoretical Results\nInelastic Collisions Between Selectively Excited Rubidium Atoms and Ground State Rubidium Atoms Observed by Laser Induced Fluorescence\nChapter IX. DOPPLER-FREE TECHNIQUES\nResonance Fluorescence From Single Ions at Rest\nBroadening and Shift of High Rydberg States Measured by Doppler- Free Two-Photon Spectroscopy\nBroadening and Shift Measurements of Doppler-Free Two-Photon Lines With the Thermionic Diode\nThe Measurement of Collisional Lineshapes Using Optical Echo Techniques\nCollision Studies of H_α Fine Structure Lines With High-Resolution Laser Spectroscopy\nEffect of Quenching Collisions on Density Shift and Broadening\nPlasma Shift and Broadening of Resolved H_α Fine Structure Lines\nChapter X. RELATED TOPICS\nLight Scattering From a Non-Equilibrium Fluid\nValidity of Semiclassical Small Angle Scattering Amplitudes for the Calculation of Elastic Collision Kernels With Lennard-Jones Intermolecular Potentials\nModification of Microwave Radiation due to Electron-Molecule Collisions\nAuthor Index\nSubject Index