Molecular Scattering of Light

I. Theory of Molecular Light Scattering in Condensed Isotropic Media and Gases.- II. Some Theoretical Studies of the Spectral Composition of Molecularly Scattered Light.- III. Apparatus and Methods of Measurement of the Basic Characteristics of Scattered Light and Auxiliary Parameters.- IV. Molecular Scattering of Light in Gases.- V. Molecular Scattering of Light in Liquids.- VI. The Study of the Fine Structure of the Line of Scattered Light in Liquids with Large Bulk Viscosity and Small Shear Viscosity.- VII. Scattering of Light in Liquids with a Large Shear Viscosity and in Glasses.- VIII. Investigation of the Spectral Composition of the Depolarized Scattering of Light (Wing of the Rayleigh Line) in Liquids with Various Viscosities.- IX. Molecular Scattering of Light in Crystals.- X. Stimulated Molecular Scattering of Light.- Appendix I. Calculation of the Fluctuations of Some Thermodynamic Quantities.- Appendix II. The Most Important Characteristics of the Fabry— Perot nterferometer, the Conditions of Its Operation, and Some Methods of Interpretation of Interference Spectra.- Fundamental Characteristics of the Interferometer.- Effect of Temperature and Pressure on the Resolving Power of the Fabry—Perot Etaion.- Interpretation of Interference Spectra.- 1. Method of squares of the ring diameters.- 2. Method of interpretation of the noncentral interference bands.- 3. Dispersion curve method.- Appendix III.- Table I. Depolarization Factor ?u and the Kerr Constant K for Various Gases and Vapors.- Table II. Average and Principal Polarizabilities of Various Molecules, cm3.- Table HI. Experimental Data for the Absolute Value of the Scattering Coefficient in Various Liquids.- Table IV. Some Parameters for Calculation of the Scattering Coefficient for 20°C, ? = 4358Å.- Table V. Relative Intensity of the Light of Molecular Scattering in Various Liquids.- Table VI. Temperature Dependence of the Relative Intensity.- Table VII. Depolarization Factor of Scattered Light in Liquids (Room Temperature).- Table VIII. Temperature Dependence of the Depolarization Factor.- Table IX. Depolarization of Scattered Light in Phenol -Water Mixtures at Different Temperatures.- Table X. Relative Intensity of Light Scattered by the Surface and Volume of Various Liquids.- Table XI. Light Intensity Scattered by the Surface of Liquid CO2, as a Function of the Temperature.- Table XII. Molecular Weight Mn, Mw, and Constants.- of Interaction B of Polystyrene Solutions, Determined from the Osmotic Pressure and Light Scattering.- Table XIII. Molecular Weight of Certain Proteins.- Table XIV. Velocity of Hypersound According to.- Data of Various Authors.- Table XV. Some Characteristics of Liquids.- Table XVI. Temperature Dependence of the Scattered.- Light Intensity in the Transition from Liquid to.- Glassy State in Various Individual Substances.- References.