ASASSN-21js:环状圆盘的多年过境

T.H. Pramono, M. Kenworthy, R. van Boekel
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摘要

正如 "全天空超新星自动巡天"(All Sky Automated Survey for Supernovae)所探测到的那样,ASASSN-21js这颗早期型恒星在2021年开始衰减,目前仍在经历多年的日蚀。 我们将这一事件解释为是由于恒星前方有一个结构化的物质圆盘。 这个圆盘围绕着一个质量和光度都相当于褐矮星或更小的亚恒星天体运行。 我们希望确定日食的预期持续时间和结束日期。我们模拟了一个倾斜的、方位角对称的环状系统,围绕着一个看不见的伴星,并计算了天体在恒星前方移动时产生的时变光曲线。 我们对星环参数进行了初步估计,并将这些参数作为 MCMC 算法的输入,以确定星环的几何特性和相关的不确定性。迄今为止,与光曲线最一致的模型是一个相对于视线具有高倾角的双环系统,其半主轴为 71.6 个恒星半径。 根据对恒星半径的估计,横向速度约为 0.7,如果与恒星结合,则轨道的半主轴约为 13000 au,将其置于母恒星的奥尔特云中。 这次凌日正在进行中,将在MJD 61526(2027年5月1日)前后结束。 我们鼓励大家继续观测这个天体,以了解它的特性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
ASASSN-21js: A multi-year transit of a ringed disc
The early-type star ASASSN-21js started to fade in 2021, as was detected by the All Sky Automated Survey for Supernovae, undergoing a multi-year eclipse that is still underway. We interpret this event as being due to a structured disc of material transiting in front of the star. The disc is in orbit around a substellar object with the mass and luminosity of a brown dwarf or smaller. We want to determine the expected duration and ending date of the eclipse. We modelled a tilted and inclined azimuthally symmetric ring system around an unseen companion and calculated the resulting time-varying light curve as the object transited in front of the star. We made an initial estimate of the ring parameters and used these as inputs to an MCMC algorithm to determine the geometric properties of the rings with associated uncertainties. The model most consistent with the light curve to date is a two-ring system at high inclination with respect to the line of sight that has a semi-major axis of 71.6 stellar radii. With an estimate of the stellar radius, the transverse velocity is around 0.7 which if bound to the star is an orbit with a semi-major axis of around 13000 au, placing it in the Oort cloud of the parent star. The transit is ongoing and will finish around MJD 61526 (May 1 2027). We encourage the community to continue observing this object in order to understand its properties.
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