The Chandra High-resolution X-Ray Spectrum of Quiescent Emission from Sgr A*
Abstract
In quiescence, Sgr A* is surprisingly dim, shining 100,000 times less than expected for its environment. This problem has motivated a host of theoretical models to explain radiatively inefficient accretion flows. The Chandra Galactic Center X-ray Visionary Program obtained approximately 3 Ms (1 month) of Chandra high-energy transmission grating (HETG) data, offering the only opportunity to examine the quiescent X-ray emission of Sgr A* with high-resolution spectroscopy. Utilizing custom background regions and filters for removing overlapping point sources, this work provides the first-ever look at stacked HETG spectra of Sgr A*. We model the background data sets with a cubic spline and fit the unbinned Sgr A* spectra with a simple parametric model of a power law plus Gaussian lines under the effects of interstellar extinction. We detect a strong 6.7 keV iron emission line in the HEG spectra and a 3.1 keV emission line in the MEG spectra. In all cases, the line centroids and equivalent widths are consistent with those measured from low-resolution CCD spectra. An examination of the unbinned, stacked HEG ± 1 spectrum reveals fine structure in the iron line complex. In addition to resolving the resonant and forbidden lines from He-like iron, there are apparent emission features arising with higher statistical significance at lower energy, potentially associated with Fe XX-XXIV ions in a ∼1 keV plasma arising near the Bondi radius of Sgr A*. With this work, we release the cleaned and stacked Sgr A* and background HETG spectra to the public as a special legacy data set.
- Publication:
-
The Astrophysical Journal
- Pub Date:
- March 2020
- DOI:
- arXiv:
- arXiv:2002.07198
- Bibcode:
- 2020ApJ...891...71C
- Keywords:
-
- Galactic center;
- Accretion;
- Supermassive black holes;
- High resolution spectroscopy;
- 565;
- 14;
- 1663;
- 2096;
- Astrophysics - High Energy Astrophysical Phenomena;
- Physics - Space Physics
- E-Print:
- Accepted by ApJ