Mirza Arnaut, Christian Wöhler, Pritish Halder, Goldy Ahuja, Shashikiran Ganesh, Megha Bhatt

Imaging polarimetry is a well-known method for analysing the structure and composition of cometary dust. Accordingly, comets are classified based on the phase angle dependent degree of linear polarization of their comae. The goal of this study is to examine the size and structure of the dust grains in the coma and in particular in the tail of the bright comet C/2023 A3 (Tsuchinshan-ATLAS) and to infer possible variations. For this purpose, we rely on the method of telescopic wide-field polarimetric imaging of the comet in order to obtain the dependence of the degree of linear polarization (DoLP) of the coma and tail on the phase angle across a broad range, using an off-the-shelf industrial grade polarization camera combined with a small telescope of short aperture ratio. These observations are accompanied by T-matrix modeling using the MSTM4 software framework for simulation of light scattering by fractal agglomerates of spherical monomer particles. Our observations indicate that the coma exhibits a high maximum DoLP of 0.34, which is further exceeded by a factor of about two by the DoLP of the comet's tail. Differences in the phase angle of maximum DoLP between coma and tail indicate a higher carbon vs.\ silicate fraction in the coma than in the tail. Our simulations are able to reproduce the observations when assuming that the dust agglomerates are formed of larger monomers in the coma than in the tail. A possible explanation of these results is that the coma monomers are coated by a thin layer of frozen volatiles, which sublimate due to solar heating when the dust moves from the coma towards the tail.