A study of the correlation between polarization maximum to minimum ratio and scattering parameters in a spheroid dust model

Abstract

This paper investigates the correlation between the ratio of polarization maximum to polarization minimum (Pz) and different scattering parameters such as complex refractive indices (m=n+ik), effective radius (reff), effective variance (veff), and axial ratio (E) for spheroidal particles. The simulations are executed using the double-precision T-matrix code for randomly oriented spheroidal particles, considering different sets of scattering parameters. For a specific range of n, k, E, reff, and veff, a strong correlation between Pz and other scattering parameters is observed in all cases, which can be fitted by a second-degree polynomial equation. The simulations are conducted at two wavelengths (λ=0.50 µm and 0.65 µm). Additionally, we compare our results obtained from numerical simulation with the experimental data for a few forsterite samples conducted by Muñoz et al. (2021). A set of conclusions is presented based on our work.