Light and period variations in the supersoft X-ray source QR And (= RX J0019.8 + 2156)

Author:

Zang Lei123,Qian Shengbang1234,Fernández-Lajús Eduardo56ORCID

Affiliation:

1. Yunnan Observatories, Chinese Academy of Sciences (CAS) , P. O. Box 110, 650216, Kunming, China

2. Key Laboratory of the Structure and Evolution of Celestial Objects, Chinese Academy of Sciences , P. O. Box 110, 650216, Kunming, China

3. University of Chinese Academy of Sciences , No.1 Yanqihu East Rd, Huairou District, 101408, Beijing, China

4. Center for Astronomical Mega-Science, Chinese Academy of Sciences , 20A Datun Road, Chaoyang District, 100012, Beijing, China

5. Facultad de Ciencias Astronómicas y Geofísicas - Universidad Nacional de La Plata , Paseo del Bosque S/N - B1900FWA, La Plata, Argentina

6. Instituto de Astrofísica de La Plata (CCT La Plata - CONICET/UNLP) , B1900FWA, La Plata, Argentina

Abstract

ABSTRACT QR And is the optically brightest supersoft X-ray source, where a massive white dwarf in a close binary accretes material from its companion star via an accretion disc. Based on the photometric observations from the TESS space telescope and the AAVSO data base, 91 eclipse timings were determined. Variations such as flaring activities, depth and profile changes in the primary and the secondary minima, and some short-term irregular fluctuations are found in the TESS light curves, which are interpreted as the activities of the accretion disc and fluctuations of the mass transfer rate. By collecting all available eclipse timings together with those newly determined, we constructed the O-C diagram and analysed the changes in the orbital period. It is discovered that the orbital period is continuously increasing at a rate of $\dot{P}= +3.7(1)\times 10^{-7} d \cdot yr^{-1}= +0.0320(8)s \cdot yr^{-1}$. The continuous increase in the orbital period is mainly caused by the mass transfer from the low-mass companion to the white dwarf on its Kelvin–Helmholtz time-scale, while wind mass loss from the accretion disc may also contribute to the period variation. In this scenario, the mass transfer rate of QR And is estimated to be in the range of about 1.2 × 10−7 to 4.2 × 10−7M⊙ × yr−1 and the mass-accretion rate is less than 1.6 × 10−7M⊙ × yr−1. It can be roughly estimated that QR And may reach to the Chandrasekhar limit in at least 1.5 million yr, then might explode as a type Ia supernova.

Funder

National Natural Science Foundation of China

National Key Research and Development Program of China

NASA

Publisher

Oxford University Press (OUP)

Subject

Space and Planetary Science,Astronomy and Astrophysics

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