Implications of the X-ray Variability for the Mass of MCG-6-30-15
Abstract
The bright Seyfert 1 galaxy shows large variability on a variety of time scales. We study the 3 day time scale variability using a set of simultaneous archival observations that were obtained from and the Advanced Satellite for Cosmology and Astrophysics (). The \ observations span nearly 106 sec and indicate that the X-ray Fourier Power Spectral Density has an rms variability of 16%, is flat from approximately 10-6 - 10-5 Hz, and then steepens into a power law f-α with α 1. A further steepening to α ≈ 2 occurs between 10-4-10-3 Hz. The shape and rms amplitude are comparable to what has been observed in and , albeit with break frequencies that differ by a factor of 10-2 and 104, respectively. If the break frequencies are indicative of the central black hole mass, then this mass may be as low as 106 M. An upper limit of 2 ks for the relative lag between the 0.5-2 keV band compared to the 8-15 keV band was also found. Again by analogy with and , this limit is consistent with a relatively low central black hole mass.
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