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Polarized Radiation Signals from Highly Magnetized Neutron Star Surfaces

Published online by Cambridge University Press:  27 February 2023

Kun Hu Open the ORCID record for Kun Hu [Opens in a new window] ,
Matthew G. Baring ,
Joseph A. Barchas  and
George Younes
Kun Hu
Affiliation:
Department of Physics and Astronomy - MS 108, Rice University, 6100 Main St., Houston, TX 77251-1892, USA
Matthew G. Baring
Affiliation:
Department of Physics and Astronomy - MS 108, Rice University, 6100 Main St., Houston, TX 77251-1892, USA
Joseph A. Barchas
Affiliation:
Natural Sciences, Southwest Campus, Houston Community College, 5601 W. Loop S., Houston, Texas 77081, USA
George Younes
Affiliation:
Astrophysics Science Division, NASA Goddard Space Flight Center, Greenbelt, MD 20771, USA
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Abstract

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The surfaces of neutron stars are likely sources of strongly polarized soft X rays due to the presence of strong magnetic fields. Scattering transport in the surface layers is critical to the determination of the emergent anisotropy of light intensity, and is strongly influenced by the complicated interplay between linear and circular polarization information. We have developed a magnetic Thomson scattering simulation to model the outer layers of fully-ionized atmospheres in such compact objects. Here we summarize emergent intensities and polarizations from extended atmospheric simulations, spanning considerable ranges of magnetic colatitudes. General relativistic propagation of light from the surface to infinity is fully included. The net polarization degrees are moderate and not very small when summing over a variety of field directions. These results provide an important foundation for observations of magnetars to be acquired by NASA’s new IXPE X-ray polarimeter and future X-ray polarimetry missions.

Keywords

magnetic fieldsstars: neutronpulsars: general
Type
Contributed Paper
Information
Proceedings of the International Astronomical Union , Volume 16 , Symposium S363: Neutron Star Astrophysics at the Crossroads: Magnetars and the Multimessenger Revolution , June 2020 , pp. 297 - 300
Copyright
© The Author(s), 2023. Published by Cambridge University Press on behalf of International Astronomical Union

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