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The SPHERE view of three interacting twin disc systems in polarized light

Dense stellar environments as hosts of ongoing star formation increase the probability of gravitational encounters among stellar systems during the early stages of evolution. Stellar interaction may occur through non-recurring, hyperbolic, or parabolic passages (a so-called ‘fly-by’), through secula...

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Main Authors: Weber, Philipp (Author) , Pérez, Sebastián (Author) , Guidi, Greta (Author) , Troncoso Kurtovic, Nicolás Gustavo (Author) , Zurlo, Alice (Author) , Garufi, Antonio (Author) , Pinilla, Paola (Author) , Mayama, Satoshi (Author) , van Holstein, Rob G (Author) , Dullemond, Cornelis (Author) , Cuello, Nicolás (Author) , Principe, David (Author) , Cieza, Lucas (Author) , González-Ruilova, Camilo (Author) , Girard, Julien (Author)
Format: Article (Journal)
Language:English
Published: 2023
In: Monthly notices of the Royal Astronomical Society
Year: 2023, Volume: 518, Issue: 4, Pages: 5620-5642
ISSN:1365-2966
DOI:10.1093/mnras/stac3478
Online Access:Verlag, lizenzpflichtig, Volltext: https://doi.org/10.1093/mnras/stac3478
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Author Notes:Philipp Weber, Sebastián Pérez, Greta Guidi, Nicolás T. Kurtovic, Alice Zurlo, Antonio Garufi, Paola Pinilla, Satoshi Mayama, Rob G. van Holstein, Cornelis P. Dullemond, Nicolás Cuello, David Principe, Lucas Cieza, Camilo González-Ruilova and Julien Girard
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Summary:Dense stellar environments as hosts of ongoing star formation increase the probability of gravitational encounters among stellar systems during the early stages of evolution. Stellar interaction may occur through non-recurring, hyperbolic, or parabolic passages (a so-called ‘fly-by’), through secular binary evolution, or through binary capture. In all three scenarios, the strong gravitational perturbation is expected to manifest itself in the disc structures around the individual stars. Here, we present near-infrared polarized light observations that were taken with the SPHERE/IRDIS instrument of three known interacting twin-disc systems: AS 205, EM* SR 24, and FU Orionis. The scattered light exposes spirals likely caused by the gravitational interaction. On a larger scale, we observe connecting filaments between the stars. We analyse their very complex polarized intensity and put particular attention to the presence of multiple light sources in these systems. The local angle of linear polarization indicates the source whose light dominates the scattering process from the bridging region between the two stars. Further, we show that the polarized intensity from scattering with multiple relevant light sources results from an incoherent summation of the individuals’ contribution. This can produce nulls of polarized intensity in an image, as potentially observed in AS 205. We discuss the geometry and content of the systems by comparing the polarized light observations with other data at similar resolution, namely with ALMA continuum and gas emission. Collective observational data can constrain the systems’ geometry and stellar trajectories, with the important potential to differentiate between dynamical scenarios of stellar interaction.
Item Description:Vorab veröffentlicht 28. November 2022
Gesehen am 05.04.2023
Physical Description:Online Resource
ISSN:1365-2966
DOI:10.1093/mnras/stac3478

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