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Bright X-ray flares from Sgr A*

G. D. KarssenI. Physikalisches Institut, Universität zu Köln, Zülpicher Str. 77, D-50937 Köln, GermanyMichal BursaAstronomical Institute, Academy of Sciences, Boc̆ní II 1401, CZ-14131 Prague, Czech RepublicA. EckartI. Physikalisches Institut, Universität zu Köln, Zülpicher Str. 77, D-50937 Köln, GermanyM. Valencia-S.I. Physikalisches Institut, Universität zu Köln, Zülpicher Str. 77, D-50937 Köln, GermanyMichal DovčiakAstronomical Institute, Academy of Sciences, Boc̆ní II 1401, CZ-14131 Prague, Czech RepublicV. KarasAstronomical Institute, Academy of Sciences, Boc̆ní II 1401, CZ-14131 Prague, Czech RepublicJiří HorákAstronomical Institute, Academy of Sciences, Boc̆ní II 1401, CZ-14131 Prague, Czech Republic
2017en
ABI

Аннотация

We address a question whether the observed light curves of X-ray flares originating deep in galactic cores can give us independent constraints on the mass of the central supermassive black hole. To this end, we study four brightest flares which have been recorded from Sagittarius A*. They all exhibit an asymmetric shape consistent with a combination of two intrinsically separate peaks which occur at a certain time delay with respect to each other, and are characterized by their mutual flux ratio and the profile of raising/declining parts. Such asymmetric shapes arise naturally in the scenario of a temporary flash from a source orbiting near a supermassive black hole, at a radius of only ∼10–20 gravitational radii. An interplay of relativistic effects is responsible for the modulation of the observed light curves: Doppler boosting, gravitational redshift, light focusing and light-travel time delays. We find the flare properties to be in agreement with the simulations (our ray-tracing code sim5lib). The inferred mass for each of the flares comes out in agreement with previous estimates based on orbits of stars; the latter have been observed at radii and over time-scales two orders of magnitude larger than those typical for the X-ray flares, so the two methods are genuinely different. We test the reliability of the method by applying it to another object, namely, the Seyfert I galaxy RE J1034+396.

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