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Time-resolved spectroscopy on the heartbeat state of GRS 1915+105 using <i>AstroSat</i>

Divya RawatDepartment of physics, IIT Kanpur, Kanpur Nagar, Uttar Pradesh 208016, IndiaRanjeev MisraInter-University Center for Astronomy and Astrophysics, Ganeshkhind, Pune 411007, IndiaPankaj JainDepartment of physics, IIT Kanpur, Kanpur Nagar, Uttar Pradesh 208016, IndiaJ. S. YadavDepartment of physics, IIT Kanpur, Kanpur Nagar, Uttar Pradesh 208016, India
2022en
ABI

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ABSTRACT AstroSat spectra of the black hole system GRS 1915+105 during the heartbeat state (with a varying oscillation period from 150 to 100 s) were analysed using a truncated relativistic disc model along with a Comptonization component. Spectra were fitted for segments of length ∼24 s. The oscillation can be described as coordinated variations of the accretion rate, Comptonized flux, and the inner disc radius, with the latter ranging from 1.235 to 5 gravitational radii. Comparison with results from the χ and intermediate states shows that while the accretion rate and the high-energy photon index were similar, the inner disc radius and the fraction of Comptonized photons were larger for these states than for the heartbeat one. The coronal efficiency $\eta \equiv L_{ac}/\dot{M} c^2$, where Lac is the radiative luminosity generated in the corona, is found to be approximately ${\propto}\dot{M}^{-2/3}$ for all the observations. The efficiency decreases with inner radii for the heartbeat state but has similar values for the χ and intermediate states where the inner radii are larger. The implications of these results are discussed.

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