论文信息 - Empirical forward scattering phase functions from 0.08 to 16 deg. for randomly shaped terrigenous 1-21 microm sediment grains.

Empirical forward scattering phase functions from 0.08 to 16 deg. for randomly shaped terrigenous 1-21 microm sediment grains.

We present in-water forward scattering phase functions covering the angle range 0.08 to 16 degrees for 19 narrow-sized dispersions of randomly shaped sediment grains. These dispersions cover particle size range from 1 to 20 microns. These phase functions offer a realistic alternative to Mie theory. Qualitatively, (i) the magnitude of phase functions at the smallest angles for equal size spheres and randomly shaped particles are nearly equal; (ii) the oscillations predicted by Mie theory for spheres disappear for random shaped grains, and (iii) the tendency of phase functions of large spheres to merge at large angles is also seen with randomly shaped grains. The data are also provided in tabulated form.

O. Mikkelsen | Y C Agrawal | Y. Agrawal | Ole A Mikkelsen

[1] E. Boss,et al. Acceptance angle effects on the beam attenuation in the ocean. , 2009, Optics express.

[2] Yogesh C. Agrawal,et al. The optical volume scattering function: Temporal and vertical variability in the water column off the New Jersey coast , 2005 .

[3] E. D. Hirleman. Optimal Scaling of the Inverse Fraunhofer Diffraction Particle Sizing Problem: The linear system produced by quadrature , 1987 .

[4] Y. C. Agrawal,et al. Instruments for particle size and settling velocity observations in sediment transport , 2000 .

[5] E. Boss,et al. Calibrated near-forward volume scattering function obtained from the LISST particle sizer. , 2006, Optics express.

[6] A. Jones. Fraunhofer Diffraction by Random Irregular Particles , 1987 .