Transient emission of selected CRTS Cataclysmic Variables

黄金时代 Pub Date : 2018-07-06 DOI:10.22323/1.315.0021

H. Szegedi, A. Odendaal, P. Meintjes, B. V. Soelen, J. P. Marais, A. Rajoelimanana, M. M. Nyamai, R. Britto, L. Hanlon, D. Murphy, A. Martin-Carrillo, M. Motsoaledi, J. Thorstensen

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Abstract

We present optical photometric and spectroscopic observations of three SU UMa-type dwarf novae, i.e. AR Pic, QW Ser and V521 Peg, conducted in 2016 and 2017. These sources were selected from the Catalina Real-Time Transient Survey and observed during quiescence, outburst (AR Pic and QW Ser) and superoutburst (V521 Peg). For AR Pic, strong flickering in the light curves and an asymmetric double-peaked H$\beta$ emission line in the spectra, confirmed the presence of a very active hot spot. During outburst, detected on 18 February 2017, it exhibited a $\sim 3.3$ magnitude brightening. The projected velocity of the inner edge of the accretion disc is $\sim 2000 \rm~km~s^{-1}$. An outburst of QW Ser was detected on 8 August 2016. Absorption lines, characteristic of an optically thick disc during outburst, were detected and an outflow velocity of $\sim 1000 \rm ~km~s^{-1}$ was determined. Optical spectra during the superoutburst of V521 Peg were obtained for the first time, confirming the superoutburst nature of the outburst, as also observed in other SU UMa-type dwarf novae. The superoutburst was detected on 1 September 2017. Well-defined superhumps were observed, with an average superhump period of $P_{\rm sh} \sim 1.48$ hr. A mass ratio of $q \sim 0.14$ was determined from the period excess of $\varepsilon \sim 3 \%$.

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所选crt的瞬态发射

本文介绍了2016年和2017年对三颗SU uma型矮新星(AR Pic、QW Ser和V521 Peg)的光度和光谱观测结果。这些源是从Catalina实时瞬态观测中选择的，并在静止、突出(AR Pic和QW Ser)和超突出(V521 Peg)期间进行了观测。对于AR Pic，光曲线中强烈的闪烁和光谱中不对称的双峰H $\beta$发射线证实了一个非常活跃的热点的存在。在2017年2月18日探测到的爆发期间，它表现出$\sim 3.3$等的增亮。吸积盘内缘的投影速度为$\sim 2000 \rm~km~s^{-1}$。2016年8月8日发现QW Ser爆发。在爆发过程中检测到具有光学厚盘特征的吸收线，并确定了$\sim 1000 \rm ~km~s^{-1}$的流出速度。首次获得了V521 Peg超突出的光谱，证实了该突出的超突出性质，在其他SU uma型矮新星中也有观测到。该超级爆发于2017年9月1日被发现。观察到明确的超峰，平均超峰周期为$P_{\rm sh} \sim 1.48$ hr。质量比为$q \sim 0.14$，由周期过剩量$\varepsilon \sim 3 \%$确定。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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