SRGe J194401.8+284452—an X-ray Cataclysmic Variable in the Field of the Gamma-Ray Source 4FGL J1943.9+2841

IF 1.1 4区 物理与天体物理 Q3 ASTRONOMY & ASTROPHYSICS
A. I. Kolbin, A. V. Karpova, M. V. Suslikov, I. F. Bikmaev, M. R. Gilfanov, I. M. Khamitov, Yu. A. Shibanov, D. A. Zyuzin, G. M. Beskin, V. L. Plokhotnichenko, A. G. Gutaev, S. V. Karpov, N. V. Lyapsina, P. S. Medvedev, R. A. Sunyaev, A. Yu. Kirichenko, M. A. Gorbachev, E. N. Irtuganov, R. I. Gumerov, N. A. Sakhibullin, E. S. Shablovinskaya, E. A. Malygin
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引用次数: 0

Abstract

We have carried out multiwavelength spectroscopic and photometric studies of the object SRGe J194401.8+284452 (2RXS J194401.4+284456, XMMSL2 J194402.0+284451, 2SXPS J194401.7+284450), the brightest X-ray source in the position uncertainty ellipse of the unidentified gamma-ray source 4FGL J1943.9+2841, with the goal of determining its nature and the possible association with the gamma-ray source. The object is shown to be a cataclysmic variable with an orbital period of about 1.5 h and clear evidence for the presence of an accretion disk around the white dwarf. It can be classified by its properties as an intermediate polar whose association with the gamma-ray source is unlikely. SRGe J194401.8+284452 exhibits abrupt transitions between its high and low luminosity states simultaneously in the optical and X-ray bands, which remain relatively stable on time scales of several months/years. This may be related to the change in the accretion rate by an order of magnitude. We have obtained constraints on the mass (0.3–0.9 \(M_{\odot}\)) and temperature (\(14\,750\pm 1250\) K) of the accreting white dwarf in the low state, the mass of the donor star (\({\leq}0.08\pm 0.01\;M_{\odot}\)), and the orbital inclination of the binary system (\(40^{\circ}{-}75^{\circ}\)). In the low state we have detected an 8-min brightness variability in the optical band that is most likely related to the white-dwarf spin and not to the nonradial pulsations. In the high state we have revealed stochastic brightness variations on time scales of 1–15 min with amplitudes of 0.2–\(0.6^{m}\). SRGe J194401.8+284452 replenishes the small group of intermediate polars with the shortest orbital periods lying below the gap in the period distribution of these systems and exhibiting transitions between the states with high and low accretion rates. The brightness of the source at a level of \(17{-}20^{m}\) in the 2000–8000 Å range and \((5{-}50)\times 10^{-13}\) erg s\({}^{-1}\) cm\({}^{-2}\) in the range 0.3–10 keV makes it an interesting object for a detailed study of the physics of such systems.

Abstract Image

SRGe J194401.8+284452--伽马射线源 4FGL J1943.9+2841 场中的 X 射线大灾变变星
我们对天体SRGe J194401.8+284452(2RXS J194401.4+284456,XMMSL2 J194402.0+284451,2SXPS J194401.该天体是不明伽马射线源 4FGL J1943.9+2841 的位置不确定椭圆中最亮的 X 射线源,目的是确定其性质以及与伽马射线源的可能联系。该天体是一个大灾变变星,轨道周期约为 1.5 小时,有明显证据表明白矮星周围存在一个吸积盘。根据它的特性,可以把它归类为中极星,它与伽马射线源的联系不大可能。SRGe J194401.8+284452在光学波段和X射线波段同时表现出高亮度和低亮度状态之间的突然转变,这种转变在几个月/年的时间尺度上保持相对稳定。这可能与吸积率发生了数量级的变化有关。我们已经获得了低态吸积白矮星的质量(0.3-0.9 \(M_{\odot}\) )和温度(\(14\,750\pm 1250\) K)、供体恒星的质量(\({\leq}0.08pm 0.01\;M_{\odot}\)),以及双星系统的轨道倾角((40^{\circ}{-}75^{\circ\}))。在低状态下,我们在光学波段检测到了一个 8 分钟的亮度变化,这很可能与白矮星自旋有关,而与非辐射脉动无关。在高状态下,我们发现了时间尺度为 1-15 分钟的随机亮度变化,振幅为 0.2-(0.6^{m}\)。SRGe J194401.8+284452补充了一小部分中间极星,其轨道周期最短,低于这些系统周期分布的差距,并表现出高吸积率和低吸积率状态之间的转换。该光源在2000-8000埃范围内的亮度水平为(17{-}20^{m}\),在0.3-10 keV范围内的亮度水平为((5{-}50)\times 10^{-13})erg s\({}^{-1}) cm\({}^{-2}\) ,这使它成为详细研究这类系统物理学的一个有趣的天体。
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来源期刊
CiteScore
1.70
自引率
22.20%
发文量
0
审稿时长
6-12 weeks
期刊介绍: Astronomy Letters is an international peer reviewed journal that publishes the results of original research on all aspects of modern astronomy and astrophysics including high energy astrophysics, cosmology, space astronomy, theoretical astrophysics, radio astronomy, extragalactic astronomy, stellar astronomy, and investigation of the Solar system.
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