Multiwavelength analysis of polarized light in HD 100453

Abstract

HD 100453 disk is a prototypical companion-disk interaction system hosting a pair of spirals and a substellar companion. We present new noncoronagraphic high-contrast imaging observations of HD 100453 with V filter on SPHERE/ZIMPOL. We combined high-contrast imaging data of the reflected light from 0.55 to 2.2 μ m using the V, I', J, and Ks band data of ZIMPOL and IRDIS at VLT/SPHERE. For each observational epoch, we corrected for the smearing effect to derive the intrinsic disk-integrated polarized flux. We derived a steady increase with wavelengths from Q/I(V)=0.3\% to Q/I(K)=1.2\%. We applied reference differential imaging to extract the disk intensity for the V and Ks bands using star hopping observations. We obtained the first V-band total intensity for HD 100453 with ZIMPOL star hopping. The integrated total flux I disk/I(V)=1.5\% increases to I disk/I(K)=4.8\%. Both the total intensity and the polarization fraction show red colors, and the intrinsic maximum degree of polarization increases moderately from 40\% to 55\%. We then used RADMC-3D radiative transfer modeling with a parametrized Henyey-Greenstein phase function to constrain the dust properties. From the V to Ks band, the dominating dust in the outer disk has an increasing scattering albedo and degree of polarization, while the asymmetry parameter slightly decreases. The outer disk of HD 100453 contains sub-micron-sized low porosity grains/aggregates. The cavity in scattered light is not empty and is replenished with optically thin dust with a maximum size of ≤ 0.1μ m. The linear polarization is higher in the spiral region than in the other regions, suggesting different dust properties in those regions.

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