High-Resolution X-Ray Spectroscopy of a Low-Luminosity Active Galactic Nucleus: The Structure and Dynamics of M81*

Details High-Resolution X-Ray Spectroscopy of a Low-Luminosity Active Galactic Nucleus: The Structure and Dynamics of M81* High-Resolution X-Ray Spectroscopy of a Low-Luminosity Active Galactic Nucleus: The Structure and Dynamics of M81*

Nov 2007

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2007apj...669..830y&link_type=abstract

The Astrophysical Journal, Volume 669, Issue 2, pp. 830-840.

Astronomy and Astrophysics

Astronomy

13

Accretion, Accretion Disks, Galaxies: Active, Galaxies: Individual: Messier Number: M81, Galaxies: Jets, Galaxies: Nuclei, X-Rays: Galaxies

Scientific paper

We present Chandra HETGS observations of the low-luminosity active galactic nucleus (LLAGN) of M81. The HETGS is unique in providing high-resolution spectroscopy of the central 1" of M81, including the iron K bandpass. The continuum is a power law of photon index Γ=1.8, similar to that seen in highly luminous AGNs. Highly ionized emission lines, characteristic of gas at temperatures of T=106-108 K, are detected. Many of these thermal lines are velocity broadened, with a FWHM of approximately 1500 km s-1. A separate thermal component is associated with a 2557 km s-1 redshifted Fe XXVI emission line, characteristic of gas at temperatures T=107.4-108 K. Neutral Fe, Ar, and Si Kα fluorescence lines indicate the presence of cold, dense material. The Si Kα fluorescence line is velocity broadened, with a FWHM of 1200 km s-1. If the fluorescence lines are produced by reflection from cold, Compton thick material, then the line strengths are not compatible with solar abundances, instead favoring enhanced Ar and Si abundances with respect to the Fe abundance. The Fe Kα line is narrow, with no evidence of a thin disk extending inside 55rg (where rg=GM/c2 is the gravitational radius for a black hole of mass M). We show that a simple spectral model used to represent the expectations from a radiatively inefficient accretion flow (RIAF) describes the X-ray data well, while in a companion paper we will show that jet models with parameters similar to fits of hard state X-ray binaries describe both the X-ray and broadband (radio/optical) spectra. The HETGS spectra we present here offer an unprecedented view of the inner workings of a low-luminosity accretion flow, and thus can quantitatively constrain theoretical accretion flow models of LLAGNs such as M81*.

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