Statistical approach of the effects of roughness on the polarization of light scattered by dust grains

Autor: Jean-Pierre J. Lafon, Karine Chamaillard
Rok vydání: 2001
Předmět:
Zdroj: Journal of Quantitative Spectroscopy and Radiative Transfer. 70:519-528
ISSN: 0022-4073
DOI: 10.1016/s0022-4073(01)00026-7
Popis: In order to study the effect of shape on the optical properties of dust grains, we statistically analyze the linear polarized scattered light. We start by examining a homogeneous spherical grain using the discrete dipole approximation (DDA) Draine (Astrophys J 1988;333:848). Using a uniform law we remove elements of matter on the surface of the grain to describe a random roughness. Then, for various scattering angles, the linear polarization Pl is calculated. We successively repeat the simulation in order to obtain a sample of random variables constituting the values Pl of the linear polarization. The analysis of the results is then achieved through a Gaussian kernel method which provides the probability density function of Pl for each scattering angle. We present the results for a typical interstellar grain of water–ice with radius a comparable to the incident wavelength λ so that the parameter size x≡2πa/λ≃1. We apply this method for two wavelengths in the near IR, when water–ice is transparent at 1.9 μm , and, when water–ice is absorbing at 3.1 μm . We find that the shape of the density function of the linear polarization is asymmetric to the mean value of the density function and non-unimodal for several scattering angles. This allows us to separate the effects of roughness from those of volume. When water–ice is absorbing, we also observe a significant shift of the polarization peak toward greater scattering angles.
Databáze: OpenAIRE
Externí odkaz: