Sgr A*的广义相对论效应和近红外变率。II.研究时间不对称性的系统方法

S. V. von Fellenberg, G. Witzel, M. Bauboeck, Hui-Hsuan Chung, N. Marchili, Greg Martinez, Matteo Sadun-Bordoni, G. Bourdarot, Tuan Do, Antonia Drescher, Giovanni Fazio, F. Eisenhauer, R. Genzel, S. Gillessen, Joseph L. Hora, F. Mang, Thomas Ott, A. Howard Smith, Eduardo Ros, Diogo C. Ribeiro, F. Widmann, S. Willner, J. Anton Zensus
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引用次数: 0

摘要

根据第三时刻结构函数对Sgr A*的变率进行的系统研究发现,其上升时间为指数,$ obs minutes $,衰减时间为指数,$ obs minutes $。通量-密度变化的这种对称性与之前的工作相一致,我们将其解释为是多普勒助推作用(而不是引力透镜作用)在斯格瑞A*的光曲线中占主导地位造成的。斯格瑞A*的相对论半物理模型证实其倾角为$i。该模型还表明,固有辐射过程的发射可能具有一定的不对称性,尽管观测到的发射并不如此。第三时刻结构函数是对光曲线增量偏度的测量,在天文学的其他方面可能是一个有用的汇总统计量,因为它只感知时间上的不对称性;也就是说,对于任何时间上对称的信号,它的平均值都为零。
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General relativistic effects and the near-infrared variability of Sgr A*. II. A systematic approach to temporal asymmetry
A systematic study, based on the third-moment structure function, of Sgr A*'s variability finds an exponential rise time, $ obs minutes $, and decay time, $ obs minutes $. This symmetry of the flux-density variability is consistent with earlier work, and we interpret it as being caused by the dominance of Doppler boosting, as opposed to gravitational lensing, in Sgr A*'s light curve. A relativistic, semi-physical model of Sgr A* confirms an inclination angle of $i The model also shows that the emission of the intrinsic radiative process can have some asymmetry even though the observed emission does not. The third-moment structure function, which is a measure of the skewness of the light-curve increments, may be a useful summary statistic in other contexts of astronomy because it senses only temporal asymmetry; that is, it averages to zero for any temporally symmetric signal.
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