Observational predictions for Thorne-\.Zytkow objects
Abstract
Thorne-ytkow objects (TO) are potential end products of the merger of a neutron star with a non-degenerate star. In this work, we have computed the first grid of evolutionary models of TOs with the MESA stellar evolution code. With these models, we predict several observational properties of TOs, including their surface temperatures and luminosities, pulsation periods, and nucleosynthetic products. We expand the range of possible TO solutions to cover and . Due to the much higher densities our TOs reach compared to previous models, if TOs form we expect them to be stable over a larger mass range than previously predicted, without exhibiting a gap in their mass distribution. Using the GYRE stellar pulsation code we show that TOs should have fundamental pulsation periods of 1000--2000 days, and period ratios of 0.2--0.3. Models computed with a large 399 isotope fully-coupled nuclear network show a nucleosynthetic signal that is different to previously predicted. We propose a new nucleosynthetic signal to determine a star's status as a TO: the isotopologues and , which will have a shift in their spectral features as compared to stable titanium-containing molecules. We find that in the local Universe (~SMC metallicities and above) TOs show little heavy metal enrichment, potentially explaining the difficulty in finding TOs to-date.
Cite
@article{arxiv.2305.07337,
title = {Observational predictions for Thorne-\.Zytkow objects},
author = {R. Farmer and M. Renzo and Y. Götberg and E. Bellinger and S. Justham and S. E de Mink},
journal= {arXiv preprint arXiv:2305.07337},
year = {2023}
}
Comments
17 pages, 16 figures, 3 Tables, Accepted MNRAS, Zenodo data available https://doi.org/10.5281/zenodo.4534425