Laser light scattering review
Abstract
Since the development of laser light sources and fast digital electronics for signal processing, the classical discipline of light scattering on liquid systems experienced a strong revival plus an enormous expansion, mainly due to new dynamic light scattering techniques. While a large number of liquid systems can be investigated, ranging from pure liquids to multicomponent microemulsions, this review is largely restricted to applications on Brownian particles, typically in the submicron range. Static light scattering, the careful recording of the angular dependence of scattered light, is a valuable tool for the analysis of particle size and shape, or of their spatial ordering due to mutual interactions. Dynamic techniques, most notably photon correlation spectroscopy, give direct access to particle motion. This may be Brownian motion, which allows the determination of particle size, or some collective motion, e.g., electrophoresis, which yields particle mobility data. Suitable optical systems as well as the necessary data processing schemes are presented in some detail. Special attention is devoted to topics of current interest, like correlation over very large lag time ranges or multiple scattering.
- Publication:
-
Laser Light Scattering Advanced Technology Development Workshop, 1988
- Pub Date:
- August 1989
- Bibcode:
- 1989llsa.work....1S
- Keywords:
-
- Brownian Movements;
- Fiber Optics;
- Laser Beams;
- Light Scattering;
- Particle Size Distribution;
- Signal Processing;
- Angular Momentum;
- Electrophoresis;
- Emulsions;
- Light Sources;
- Particle Motion;
- Reduced Gravity;
- Lasers and Masers