General Relativistic effects and the NIR variability of Sgr A* II: A systematic approach to temporal asymmetry

Abstract

A systematic study, based on the third-moment structure function, of Sgr A*'s variability finds an exponential rise time τ1,obs=14.8+0.4-1.5~minutes and decay time τ2,obs=13.1+1.3-1.4~minutes. This symmetry of the flux-density variability is consistent with earlier work, and we interpret it as 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 i<45 degrees. 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, i.e., it averages to zero for any temporally symmetric signal.

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