Laser light scattering : basic principles and practice /

Laser Light Scattering 2e.

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Chu, Benjamin
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Boston : Academic Press, �1991.
Edición:2nd ed.
Temas:
Laser beams > Scattering.
Faisceaux laser > Diffusion.
Laser beams > Scattering
Laser
Laserstrahlung
Lichtstreuung
Streuung
Lasers
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Laser Light Scattering: Basic Principles and Practice; Copyright Page; Table of Contents; Preface; Chapter I. Introduction; 1.1. Momentum and Energy Transfers; 1.2. Time-Averaged and Time-Dependent Scattered Intensity; Appendix 1.A.; Appendix 1.B.; References; Chapter II. Light Scattering Theory; 2.1. Single-Particle Approach to Time-Averaged Scattered Intensity; 2.2. Scattered Electric Field from the Fluctuation Viewpoint; 2.3. Intensity of Scattered Light Based on Section 2.2; 2.4. Spectrum of Scattered Light; Appendix 2. A. Radius of Gyration
  • Appendix 2. B. Fourier Decomposition of Susceptibility FluctuationsAppendix 2. C. Mean-Squared Fluctuations of Fundamental Thermodynamic Quantities; Appendix 2. D. Spatial Correlation Function and Spatial Volume; References; Chapter III. Optical Mixing Spectroscopy; 3.1. Coherence Solid Angle; 3.2. Photoelectric Detection of the Scattered Electric Field; 3.3. Optical Mixing Spectrometers; References; Chapter IV. Photon Correlation Spectroscopy; 4.1. Photocount Autocorrelation; 4.2. Full and Clipped Hardware Digital Correlators; 4.3. Complementary Single-Clipped Autocorrelation Function
  • 4.4. Sampling Scheme of a Single-Clipped Digital Correlator4.5. Randomly Clipped Autocorrelation Function; 4.6. Scaled Autocorrelation Function; 4.7. Add-Subtract Autocorrelation Function; 4.8. Statistical Accuracy of Estimating Digital Autocorrelation of Photon-Counting Fluctuations; 4.9. Time-of-Arrival Schemes; 4.10. Photon Structure Function; 4.11. Computer-Based Correlators; References; Chapter V. Interferometry; 5.1. General Considerations; 5.2. Fabry-Perot Interferometer: General Characteristics; References; Chapter VI. Experimental Methods; 6.1. Introduction; 6.2. The Laser
  • 6.3. The Optical System6.4. Light-Scattering Spectrometers and Design Considerations; 6.5. Photon-Counting Technique; 6.6. Current Detection; 6.7. Method to Compensate Laser Fluctuations in Photon Correlation Spectroscopy; 6.8. Fabry-Perot Interferometer; 6.9. Fiber Optics; 6.10. Correlator Comparison; Appendix 6. A. Design of Fiber-Optic Probes for Light Scattering; References; Chapter VII. Methods of Data Analysis; 7.1. Nature of the Problem; 7.2. A Schematic Outline of the Procedure; 7.3. Experimental Considerations; 7.4. Brief Outline of Current Data Analysis Techniques
  • 7.5. Multiexponential Singular-Value Decomposition (MSVD)7.6. The Maximum-Entropy Formalism; 7.7. Comparison of the MEM with CONTIN; 7.8. Maximum-Entropy Method Using a Bayesian Estimate for the Regularization Parameter; 7.9. Particle Polydispersity Analysis in Real Space; Appendix 7. A.; Appendix 7. B.; References; Chapter VIII. Characterization of Polymer Molecular-Weight Distribution (Particle Sizing); 8.1. Introduction; 8.2. Finding a Solvent; 8.3. Dissolving the Polymer and Clarifying the Resultant Polymer Solution

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