Abstract
We present medium-resolution (λ/Δλ ~ 20 000) ultraviolet spectra covering the 1155−1760 Å spectral range of the Seyfert 1 galaxy Mrk 509 obtained using the Cosmic Origins Spectrograph (COS) on the Hubble Space Telescope (HST). Our observations were obtained simultaneously with a Low Energy Transmission Grating Spectrometer observation using the Chandra X-ray Observatory, and they are part of a multiwavelength campaign in September through December 2009 which also included observations with XMM-Newton, Swift, and INTEGRAL. Our spectra are the highest signal-to-noise observations to date of the intrinsic absorption components seen in numerous prior ultraviolet observations. To take advantage of the high S/N, we describe special calibrations for wavelength, flat-field and line-spread function corrections that we applied to the COS data. We detect additional complexity in the absorption troughs compared to prior observations made with the Space Telescope Imaging Spectrograph (STIS) on HST. We attribute the UV absorption to a variety of sources in Mrk 509, including an outflow from the active nucleus, the interstellar medium and halo of the host galaxy, and possible infalling clouds or stripped gaseous material from a merger that are illuminated by the ionizing radiation of the active nucleus. Variability between the STIS and COS observation of the most blue-shifted component (#1) allows us to set an upper limit on its distance of <250 pc. Similarly, variability of component 6 between FUSE observations limits its distance to <1.5 kpc. The absorption lines in all components only partially cover the emission from the active nucleus with covering fractions that are lower than those seen in the prior STIS observations and are comparable to those seen in spectra from the Far Ultraviolet Spectroscopic Explorer (FUSE). Given the larger apertures of COS and FUSE compared to STIS, we favor scattered light from an extended region near the active nucleus as the explanation for the partial covering. As observed in prior X-ray and UV spectra, the UV absorption has velocities comparable to the X-ray absorption,but the bulk of the ultraviolet absorption is in a lower ionization state with lower total column density than the gas responsible for the X-ray absorption. We conclude that the outflow from the active nucleus is a multiphase wind.
Highlights
Outflows from galaxies powered by an active galactic nucleus (AGN) may play an important role in the chemical enrichment of the intergalactic medium (IGM)
The host likely predates the presence of the active nucleus (Simon & Hamann 2010), winds powered by the AGN could return this metal-enriched material to the IGM (Furlanetto & Loeb 2001; Cavaliere et al 2002; Germain et al 2009; Hopkins & Elvis 2010; Barai et al 2011)
Since the Lyα absorption trough in Mrk 509 is heavily saturated, the higher-order Lyman lines with good S/N in the Far Ultraviolet Spectroscopic Explorer (FUSE) spectrum are useful in deriving reliable column densities and covering factors for H i
Summary
Outflows from galaxies powered by an active galactic nucleus (AGN) may play an important role in the chemical enrichment of the intergalactic medium (IGM). The host likely predates the presence of the active nucleus (Simon & Hamann 2010), winds powered by the AGN could return this metal-enriched material to the IGM (Furlanetto & Loeb 2001; Cavaliere et al 2002; Germain et al 2009; Hopkins & Elvis 2010; Barai et al 2011) Their presence and feedback may have a significant impact on the evolution of their host galaxies (Silk & Rees 1998; Scannapieco & Oh 2004; Granato et al 2004; Di Matteo et al 2005; Hopkins et al 2008; Somerville et al 2008). From constraints provided by the X-ray background, such lower luminosity AGN may dominate the population of active galaxies in the early universe (Treister et al 2009, 2010)
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