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Polarized kilonovae from black hole-neutron star mergers

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arxiv 2009.07279 v2 pith:G3GSDMUS submitted 2020-09-15 astro-ph.HE

Polarized kilonovae from black hole-neutron star mergers

classification astro-ph.HE
keywords polarizationcomponentopticalwhiledifferentdisk-windmergermodels
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We predict linear polarization for a radioactively-powered kilonova following the merger of a black hole and a neutron star. Specifically, we perform 3-D Monte Carlo radiative transfer simulations for two different models, both featuring a lanthanide-rich dynamical ejecta component from numerical-relativity simulations while only one including an additional lanthanide-free disk wind component. We calculate polarization spectra for nine different orientations at 1.5, 2.5 and 3.5 d after the merger and in the $0.1-2\,\mu$m wavelength range. We find that both models are polarized at a detectable level 1.5 d after the merger while show negligible levels thereafter. The polarization spectra of the two models are significantly different. The model lacking a disk wind shows no polarization in the optical, while a signal increasing at longer wavelengths and reaching $\sim1\%-6\%$ at $2\,\mu$m depending on the orientation. The model with a disk-wind component, instead, features a characteristic "double-peak" polarization spectrum with one peak in the optical and the other in the infrared. Polarimetric observations of future events will shed light on the debated neutron richness of the disk-wind component. The detection of optical polarization would unambiguously reveal the presence of a lanthanide-free disk-wind component, while polarization increasing from zero in the optical to a peak in the infrared would suggest a lanthanide-rich composition for the whole ejecta. Future polarimetric campaigns should prioritize observations in the first $\sim48$ hours and in the $0.5-2\,\mu$m range, where polarization is strongest, but also explore shorter wavelengths/later times where no signal is expected from the kilonova and the interstellar polarization can be safely estimated.

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  1. Late-time emission-line profiles from kilonova models

    astro-ph.HE 2026-07 conditional novelty 6.0

    Late-time optically-thin kilonova line profiles computed from 2D long-term merger ejecta are complex, orientation-dependent and broadened by r-process heating, encoding ejecta structure.