Simultaneous Chandra, CSO and VLA Observations of Sgr A*: The Nature of Flaring Activity

Abstract

Sgr A*, the massive black hole at the center of the Galaxy, varies in radio through X-ray emission on hourly time scales. The flare activity is thought to arise from the innermost region of an accretion flow onto Sgr A*. We present simultaneous light curves of Sgr A* in radio, sub-mm and X-rays that show a possible time delay of 11017 minutes between X-ray and 850 μm suggesting that the sub-mm flare emission is optically thick. At radio wavelengths, we detect time lags of of 20.46.8, 3012 and 206 minutes between the flare peaks observed at 13 and 7 mm (22 and 43 GHz) in three different epochs using the VLA. Linear polarization of 10.2% and 0.70.1% is detected at 7 and 13 mm, respectively, when averaged over the entire observation on 2006 July 17. A simple model of a bubble of synchrotron emitting electrons cooling via adiabatic expansion can explain the time delay between various wavelengths, the asymmetric shape of the light curves, and the observed polarization of the flare emission at 43 and 22 GHz. The derived physical quantities that characterize the emission give an expansion speed of vexp 0.003-0.1c, magnetic field of B10-70 Gauss and particle spectral index p1-2. These parameters suggest that the associated plasma cannot escape from Sgr A* unless it has a large bulk motion.