Analyzing stellar and interstellar contributions to polarization: modeling approaches for hot stars

Linear polarimetry of unresolved stars is a powerful method for discerning or constraining the geometry of a source and its environment, since spherical sources produce no net polarization. However, a general challenge to interpreting intrinsic stellar polarization is the contribution to the signal...

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Published in	Astrophysics and space science Vol. 370; no. 6; p. 57
Main Authors	Ignace, Richard, Fullard, Andrew G., Panopoulou, Georgia V., John Hillier, D., Erba, Christiana, Scowen, Paul A.
Format	Journal Article
Language	English
Published	Dordrecht Springer Netherlands 01.06.2025 Springer Nature B.V
Subjects	Astrobiology Astronomy Astrophysics Astrophysics and Astroparticles Binary stars Cosmology Early-type stars Geometry Hot stars Interstellar Interstellar medium Massive stars Observations and Techniques Physics Physics and Astronomy Polarimetry Polarization Space Exploration and Astronautics Space Sciences (including Extraterrestrial Physics Space telescopes Spectropolarimetry Starlight polarization Stars Stars & galaxies Stochastic models Thomson scattering Starlight polarization Early-type stars Interstellar medium Spectropolarimetry Massive stars
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ISSN	0004-640X 1572-946X 1572-946X
DOI	10.1007/s10509-025-04445-4

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Abstract	Linear polarimetry of unresolved stars is a powerful method for discerning or constraining the geometry of a source and its environment, since spherical sources produce no net polarization. However, a general challenge to interpreting intrinsic stellar polarization is the contribution to the signal by interstellar polarization (ISP). Here, we review methodologies for distinguishing the stellar signal from the interstellar contribution in the context of massive stars. We first characterize ISP with distance using a recent compilation of starlight polarization catalogs. Several scenarios involving Thomson scattering, rapidly rotating stars, optically thick winds, and interacting binaries are considered specifically to contrast the wavelength-dependent effects of ISP in the ultraviolet versus optical bands. ISP is recognizable in the stellar polarization from Thomson scattering in the polarization position angle rotations. For hot stars with near-critical rotation rates, the ISP declines whereas the stellar continuum polarization sharply increases. In the case of quite dense winds, strong ultraviolet lines trace the ISP, which is not always the case in the optical. In the binary case, temporal and chromatic effects illustrate how the ISP displaces variable polarization with wavelength. This study clarifies the impacts of ISP in relation to new ultraviolet spectropolarimetry efforts such as Polstar and Pollux .
AbstractList	Linear polarimetry of unresolved stars is a powerful method for discerning or constraining the geometry of a source and its environment, since spherical sources produce no net polarization. However, a general challenge to interpreting intrinsic stellar polarization is the contribution to the signal by interstellar polarization (ISP). Here, we review methodologies for distinguishing the stellar signal from the interstellar contribution in the context of massive stars. We first characterize ISP with distance using a recent compilation of starlight polarization catalogs. Several scenarios involving Thomson scattering, rapidly rotating stars, optically thick winds, and interacting binaries are considered specifically to contrast the wavelength-dependent effects of ISP in the ultraviolet versus optical bands. ISP is recognizable in the stellar polarization from Thomson scattering in the polarization position angle rotations. For hot stars with near-critical rotation rates, the ISP declines whereas the stellar continuum polarization sharply increases. In the case of quite dense winds, strong ultraviolet lines trace the ISP, which is not always the case in the optical. In the binary case, temporal and chromatic effects illustrate how the ISP displaces variable polarization with wavelength. This study clarifies the impacts of ISP in relation to new ultraviolet spectropolarimetry efforts such as Polstar and Pollux. Linear polarimetry of unresolved stars is a powerful method for discerning or constraining the geometry of a source and its environment, since spherical sources produce no net polarization. However, a general challenge to interpreting intrinsic stellar polarization is the contribution to the signal by interstellar polarization (ISP). Here, we review methodologies for distinguishing the stellar signal from the interstellar contribution in the context of massive stars. We first characterize ISP with distance using a recent compilation of starlight polarization catalogs. Several scenarios involving Thomson scattering, rapidly rotating stars, optically thick winds, and interacting binaries are considered specifically to contrast the wavelength-dependent effects of ISP in the ultraviolet versus optical bands. ISP is recognizable in the stellar polarization from Thomson scattering in the polarization position angle rotations. For hot stars with near-critical rotation rates, the ISP declines whereas the stellar continuum polarization sharply increases. In the case of quite dense winds, strong ultraviolet lines trace the ISP, which is not always the case in the optical. In the binary case, temporal and chromatic effects illustrate how the ISP displaces variable polarization with wavelength. This study clarifies the impacts of ISP in relation to new ultraviolet spectropolarimetry efforts such as Polstar and Pollux .
ArticleNumber	57
Author	Scowen, Paul A. Fullard, Andrew G. John Hillier, D. Panopoulou, Georgia V. Erba, Christiana Ignace, Richard
Author_xml	– sequence: 1 givenname: Richard surname: Ignace fullname: Ignace, Richard organization: Department of Physics & Astronomy, East Tennessee State University – sequence: 2 givenname: Andrew G. surname: Fullard fullname: Fullard, Andrew G. organization: Institute for Cyber-Enabled Research, Michigan State University – sequence: 3 givenname: Georgia V. surname: Panopoulou fullname: Panopoulou, Georgia V. organization: Department of Space, Earth and Environment, Chalmers University of Technology – sequence: 4 givenname: D. surname: John Hillier fullname: John Hillier, D. organization: Department of Physics & Astronomy, University of Pittsburgh – sequence: 5 givenname: Christiana surname: Erba fullname: Erba, Christiana organization: Department of Physics & Astronomy, East Tennessee State University, Space Telescope Science Institute – sequence: 6 givenname: Paul A. surname: Scowen fullname: Scowen, Paul A. organization: Exoplanets and Stellar Astrophysics Lab, NASA Goddard Space Flight Center
BackLink	https://research.chalmers.se/publication/546878$$DView record from Swedish Publication Index
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Snippet	Linear polarimetry of unresolved stars is a powerful method for discerning or constraining the geometry of a source and its environment, since spherical...
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SubjectTerms	Astrobiology Astronomy Astrophysics Astrophysics and Astroparticles Binary stars Cosmology Early-type stars Geometry Hot stars Interstellar Interstellar medium Massive stars Observations and Techniques Physics Physics and Astronomy Polarimetry Polarization Space Exploration and Astronautics Space Sciences (including Extraterrestrial Physics Space telescopes Spectropolarimetry Starlight polarization Stars Stars & galaxies Stochastic models Thomson scattering
Title	Analyzing stellar and interstellar contributions to polarization: modeling approaches for hot stars
URI	https://link.springer.com/article/10.1007/s10509-025-04445-4 https://www.proquest.com/docview/3214826689 https://research.chalmers.se/publication/546878
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