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Revealing the Dusty Warm Absorber in MCG −6-30-15 with the [ITAL]Chandra[/ITAL] High-Energy Transmission Grating

Julia C. LeeMassachusetts Institute of Technology, Center for Space Research, 77 Massachusetts Avenue, NE80, Cambridge, MA 02139P. OgleMassachusetts Institute of Technology, Center for Space Research, 77 Massachusetts Avenue, NE80, Cambridge, MA 02139C. R. CanizaresMassachusetts Institute of Technology, Center for Space Research, 77 Massachusetts Avenue, NE80, Cambridge, MA 02139Herman L. MarshallMassachusetts Institute of Technology, Center for Space Research, 77 Massachusetts Avenue, NE80, Cambridge, MA 02139Norbert S. SchulzMassachusetts Institute of Technology, Center for Space Research, 77 Massachusetts Avenue, NE80, Cambridge, MA 02139Raquel MoralesInstitute of Astronomy, Madingley Road, Cambridge CB3 0HA, UKA. C. FabianInstitute of Astronomy, Madingley Road, Cambridge CB3 0HA, UKK. IwasawaInstitute of Astronomy, Madingley Road, Cambridge CB3 0HA, UK
2001en
ABI

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We present detailed evidence for a warm absorber in the Seyfert 1 galaxy MCG--6-30-15 and dispute earlier claims for relativistic O line emission. The HETG spectra show numerous narrow, unresolved (FWHM < 200 km/s) absorption lines from a wide range of ionization states of N, O, Mg, Ne, Si, S, Ar, and Fe. The O VII edge and 1s^2--1snp resonance line series to n=9 are clearly detected at rest in the AGN frame. We attribute previous reports of an apparently highly redshifted O VII edge to the 1s^2--1snp (n > 5) O VII resonance lines, and a neutral Fe L absorption complex. The shape of the Fe L feature is nearly identical to that seen in the spectra of several X-ray binaries, and in laboratory data. The implied dust column density agrees with that obtained from reddening studies, and gives the first direct X-ray evidence for dust embedded in a warm absorber. The O VIII resonance lines and weak edge are also detected, and the spectral rollover below 2 keV is explained by the superposition of numerous absorption lines and edges. We identify, for the first time, a KLL resonance in the O VI photoabsorption cross section, giving a measure of the O VI column density. The O VII (f) emission detected at the systemic velocity implies a covering fraction of ~5% (depending on the observed vs. time-averaged ionizing flux). Our observations show that a dusty warm absorber model is not only adequate to explain all the spectral features > 0.48 keV (< 26 \AA) the data REQUIRE it. This contradicts the interpretation of Branduardi-Raymont et al. (2001) that this spectral region is dominated by highly relativistic line emission from the vicinity of the black hole.

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