The development of the laser and the subsequent expansion of research in the field of molecular scattering of light tend to ob scure the vast literature that accumulated on this subject during th'e last fifty years. The appearance of the Russian edition of Dr. Fabelinskii's book, just as this laser-induced explosion in light-scattering research took place, served to put the earlier work in its proper perspective. However, the book lacked any appreci able coverage of the laser work. Fortunately, Dr. Fabelinskii has taken advantage of the time between the appearance of the Russian text and its…mehr
The development of the laser and the subsequent expansion of research in the field of molecular scattering of light tend to ob scure the vast literature that accumulated on this subject during th'e last fifty years. The appearance of the Russian edition of Dr. Fabelinskii's book, just as this laser-induced explosion in light-scattering research took place, served to put the earlier work in its proper perspective. However, the book lacked any appreci able coverage of the laser work. Fortunately, Dr. Fabelinskii has taken advantage of the time between the appearance of the Russian text and its translation into English to expand greatly the sections devoted to areas in which laser research has made such interesting and vital additions, At the same time, revisions and insertions have been made throughout the text, so that the English translation is virtually a second edition of this useful work. The translator wishes to express his thanks here to Dr. Fa belinskii for making the revisions, corrections, and additions availahle for the English language work. He is also grateful to his graduate student, Mark B. Moffett, who prepared the index and who, during the course of its preparation, made a large number of crit ical comments and corrections that have enhanced the quality of the final product.
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.
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.
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