Particle phase function measurements by a new Fiber Array Nephelometer: FAN 1
Abstract
A fiber array polar nephelometer of advanced design, the FAN I is capable of in-situ phase function measurements of scattered light from man-made or natural atmospheric particles. The scattered light is measured at 100 different angles throughout 360 degrees, thus providing a potential measurement of the asymmetry of irregularly shaped particles. Phase functions can be measured at 10 to 100 Hz rates and the range of measurable single particle sizes is from 5 micron m to as large as 8mm. For particles smaller than 5 micro m the ensemble average can be measured. The FAN I is microprocessor controlled and the data may be stored on floppy disk or printed out in tabular and/or graphical form. The optical head may be separated from the computer system for operation in field or adverse conditions. Examples of laboratory measured scattering phase functions obtained with the FAN I for spherical particles is given to illustrate its measurement capabilities.
- Publication:
-
Wind Tunnel Seeding Systems for Laser Velocimeters
- Pub Date:
- October 1985
- Bibcode:
- 1985wtss.nasa..237F
- Keywords:
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- Light Scattering;
- Nephelometers;
- Particles;
- Wind Tunnel Apparatus;
- Wind Tunnels;
- Automatic Control;
- Data Processing;
- Design Analysis;
- Microprocessors;
- Instrumentation and Photography