A New Class of Roche Lobe–filling Hot Subdwarf Binaries

Kupfer, Thomas and Bauer, Evan B. and Burdge, Kevin B. and Roestel, Jan van and Bellm, Eric C. and Fuller, Jim and Hermes, JJ and Marsh, Thomas R. and Bildsten, Lars and Kulkarni, Shrinivas R. and Phinney, E. S. and Prince, Thomas A. and Szkody, Paula and Yao, Yuhan and Irrgang, Andreas and Heber, Ulrich and Schneider, David and Dhillon, Vik S. and Murawski, Gabriel and Drake, Andrew J. and Duev, Dmitry A. and Feeney, Michael and Graham, Matthew J. and Laher, Russ R. and Littlefair, S. P. and Mahabal, A. A. and Masci, Frank J. and Porter, Michael and Reiley, Dan and Rodriguez, Hector and Rusholme, Ben and Shupe, David L. and Soumagnac, Maayane T. (2020) A New Class of Roche Lobe–filling Hot Subdwarf Binaries. The Astrophysical Journal, 898 (1). L25. ISSN 2041-8213

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Abstract

We present the discovery of the second binary with a Roche lobe–filling hot subdwarf transferring mass to a white dwarf (WD) companion. This 56 minute binary was discovered using data from the Zwicky Transient Facility. Spectroscopic observations reveal an He-sdOB star with an effective temperature of Teff = 33,700 ± 1000 K and a surface gravity of log(g) = 5.54 ± 0.11. The GTC+HiPERCAM light curve is dominated by the ellipsoidal deformation of the He-sdOB star and shows an eclipse of the He-sdOB by an accretion disk as well as a weak eclipse of the WD. We infer a He-sdOB mass of MsdOB = 0.41 ± 0.04 M⊙ and a WD mass of MWD = 0.68 ± 0.05 M⊙. The weak eclipses imply a WD blackbody temperature of 63,000 ± 10,000 K and a radius RWD = 0.0148 ± 0.0020 R⊙ as expected for a WD of such high temperature. The He-sdOB star is likely undergoing hydrogen shell burning and will continue transferring mass for ≈1 Myr at a rate of 10−9 M⊙ yr−1, which is consistent with the high WD temperature. The hot subdwarf will then turn into a WD and the system will merge in ≈30 Myr. We suggest that Galactic reddening could bias discoveries toward preferentially finding Roche lobe–filling systems during the short-lived shell-burning phase. Studies using reddening-corrected samples should reveal a large population of helium core–burning hot subdwarfs with Teff ≈ 25,000 K in binaries of 60–90 minutes with WDs. Though not yet in contact, these binaries would eventually come into contact through gravitational-wave emission and explode as a subluminous thermonuclear supernova or evolve into a massive single WD.

Item Type: Article
Subjects: South Asian Library > Physics and Astronomy
Depositing User: Unnamed user with email support@southasianlibrary.com
Date Deposited: 22 May 2023 05:59
Last Modified: 28 May 2024 05:41
URI: http://journal.repositoryarticle.com/id/eprint/877

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