Orbital decay in an accreting and eclipsing 13.7 minute orbital period binary with a luminous donor

Burdge KB, El-Badry K, Rappaport S, Sunny Wong TL, Bauer EB, Bildsten L, Caiazzo I, Chakrabarty D, Chickles E, Graham MJ, Kara E, Kulkarni SR, Marsh TR, Nynka M, Prince TA, Simcoe RA, van Roestel J, Vanderbosch Z, Bellm EC, Dekany RG, Drake AJ, Helou G, Masci FJ, Milburn J, Riddle R, Rusholme B, Smith R. 2023. Orbital decay in an accreting and eclipsing 13.7 minute orbital period binary with a luminous donor. The Astrophysical Journal Letters. 953(1), L1.

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Author
Burdge, Kevin B.; El-Badry, Kareem; Rappaport, Saul; Sunny Wong, Tin Long; Bauer, Evan B.; Bildsten, Lars; Caiazzo, IlariaISTA ; Chakrabarty, Deepto; Chickles, Emma; Graham, Matthew J.; Kara, Erin; Kulkarni, S. R.
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Abstract
We report the discovery of ZTF J0127+5258, a compact mass-transferring binary with an orbital period of 13.7 minutes. The system contains a white dwarf accretor, which likely originated as a post–common envelope carbon–oxygen (CO) white dwarf, and a warm donor (Teff,donor = 16,400 ± 1000 K). The donor probably formed during a common envelope phase between the CO white dwarf and an evolving giant that left behind a helium star or white dwarf in a close orbit with the CO white dwarf. We measure gravitational wave–driven orbital inspiral with ∼51σ significance, which yields a joint constraint on the component masses and mass transfer rate. While the accretion disk in the system is dominated by ionized helium emission, the donor exhibits a mixture of hydrogen and helium absorption lines. Phase-resolved spectroscopy yields a donor radial velocity semiamplitude of 771 ± 27 km s−1, and high-speed photometry reveals that the system is eclipsing. We detect a Chandra X-ray counterpart with LX ∼ 3 × 1031 erg s−1. Depending on the mass transfer rate, the system will likely either evolve into a stably mass-transferring helium cataclysmic variable, merge to become an R CrB star, or explode as a Type Ia supernova in the next million years. We predict that the Laser Space Interferometer Antenna (LISA) will detect the source with a signal-to-noise ratio of 24 ± 6 after 4 yr of observations. The system is the first LISA-loud mass-transferring binary with an intrinsically luminous donor, a class of sources that provide the opportunity to leverage the synergy between optical and infrared time domain surveys, X-ray facilities, and gravitational-wave observatories to probe general relativity, accretion physics, and binary evolution.
Publishing Year
Date Published
2023-08-08
Journal Title
The Astrophysical Journal Letters
Publisher
American Astronomical Society
Volume
953
Issue
1
Article Number
L1
ISSN
eISSN
IST-REx-ID

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Burdge KB, El-Badry K, Rappaport S, et al. Orbital decay in an accreting and eclipsing 13.7 minute orbital period binary with a luminous donor. The Astrophysical Journal Letters. 2023;953(1). doi:10.3847/2041-8213/ace7cf
Burdge, K. B., El-Badry, K., Rappaport, S., Sunny Wong, T. L., Bauer, E. B., Bildsten, L., … Smith, R. (2023). Orbital decay in an accreting and eclipsing 13.7 minute orbital period binary with a luminous donor. The Astrophysical Journal Letters. American Astronomical Society. https://doi.org/10.3847/2041-8213/ace7cf
Burdge, Kevin B., Kareem El-Badry, Saul Rappaport, Tin Long Sunny Wong, Evan B. Bauer, Lars Bildsten, Ilaria Caiazzo, et al. “Orbital Decay in an Accreting and Eclipsing 13.7 Minute Orbital Period Binary with a Luminous Donor.” The Astrophysical Journal Letters. American Astronomical Society, 2023. https://doi.org/10.3847/2041-8213/ace7cf.
K. B. Burdge et al., “Orbital decay in an accreting and eclipsing 13.7 minute orbital period binary with a luminous donor,” The Astrophysical Journal Letters, vol. 953, no. 1. American Astronomical Society, 2023.
Burdge KB, El-Badry K, Rappaport S, Sunny Wong TL, Bauer EB, Bildsten L, Caiazzo I, Chakrabarty D, Chickles E, Graham MJ, Kara E, Kulkarni SR, Marsh TR, Nynka M, Prince TA, Simcoe RA, van Roestel J, Vanderbosch Z, Bellm EC, Dekany RG, Drake AJ, Helou G, Masci FJ, Milburn J, Riddle R, Rusholme B, Smith R. 2023. Orbital decay in an accreting and eclipsing 13.7 minute orbital period binary with a luminous donor. The Astrophysical Journal Letters. 953(1), L1.
Burdge, Kevin B., et al. “Orbital Decay in an Accreting and Eclipsing 13.7 Minute Orbital Period Binary with a Luminous Donor.” The Astrophysical Journal Letters, vol. 953, no. 1, L1, American Astronomical Society, 2023, doi:10.3847/2041-8213/ace7cf.
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