http://arxiv.org/abs/2109.10099
This paper introduces the quadrant polarization parameters $Q_{000}$, $Q_{090}$, $Q_{180}$, $Q_{270}$ for Stokes $Q$ and $U_{045}$, $U_{135}$, $U_{225}$, $U_{315}$ for Stokes $U$ for the characterization of the azimuthal dependence of the scattering polarization of spatially resolved circumstellar disks illuminated by the central star. These parameters are based on the natural Stokes $Q$ and $U$ quadrant pattern produced by circumstellar scattering. They provide a simple test of the deviations of the disk geometry from axisymmetry and can be used to constrain the scattering phase function for optically thin disks without detailed model fitting of disk images. The parameters are easy to derive from observations and model calculations and are therefore well suited to systematic studies of the dust scattering in circumstellar disks.
It is shown for models of optically thin and rotationally symmetric debris disks that the quadrant parameters normalized to the integrated azimuthal polarization or quadrant ratios like $Q_{000}/Q_{180}$ depend only on the disk inclination $i$ and the polarized scattering phase function of the dust, and they do not depend on the radial distribution of the scattering emissivity. Because $i$ is usually well known for resolved disk, we can derive the shape of the phase function for the sampled scattering angle range. This finding also applies to models with vertical extensions as observed for debris disks.
Diagnostic diagrams are calculated for normalized quadrant parameters and quadrant ratios for the determination of the asymmetry parameter $g$ of the polarized Henyey-Greenstein scattering phase function. We apply these diagrams to measurements of HR 4796A, and find that a phase function with only one parameter does not reproduce the data well, but find a better solution with a three-parameter phase function.
H. Schmid
Wed, 22 Sep 21
37/57
Comments: 21 pages, 17 figures, accepted for publication in Astronomy & Astrophysics