4.7 Article

NGC 839: SHOCKS IN AN M82-LIKE SUPERWIND

Journal

ASTROPHYSICAL JOURNAL
Volume 721, Issue 1, Pages 505-517

Publisher

IOP PUBLISHING LTD
DOI: 10.1088/0004-637X/721/1/505

Keywords

galaxies: active; galaxies: evolution; galaxies: individual (NGC 839); galaxies: ISM; ISM: jets and outflows; shock waves

Funding

  1. Spitzer [5-57359]
  2. Australian Department of Science and Education (DEST) Systemic Infrastructure Initiative
  3. Australian Research Council (ARC) [LE0775546, DP0664434, DP0984657]
  4. Direct For Mathematical & Physical Scien
  5. Division Of Astronomical Sciences [0748559] Funding Source: National Science Foundation
  6. Direct For Mathematical & Physical Scien
  7. Division Of Astronomical Sciences [1010064] Funding Source: National Science Foundation
  8. Australian Research Council [LE0775546] Funding Source: Australian Research Council

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We present observations of NGC 839 made with the Wide Field Spectrograph on the ANU 2.3 m telescope. Our data cover a region 25 '' x 60 '' at a spatial resolution of similar to 1.'' 5. The long axis of the field is aligned with the superwind we have discovered in this starburst galaxy. The data cover the range of 3700-7000 angstrom, with a spectral resolution R similar to 7000 in the red and R similar to 3000 in the blue. We find that the stellar component of the galaxy is strongly dominated by a fast rotating intermediate-age (similar to 400 Myr) A-type stellar population, while the gas is concentrated in a bi-conical polar funnel. We have generated flux distributions, emission line ratio diagnostics, and velocity maps in both emission and absorption components. We interpret these in the context of a new grid of low-velocity shock models appropriate for galactic-scale outflows. These models fit the data remarkably well, providing for the first time model diagnostics for shocks in superwinds and strongly suggesting that shock excitation is largely responsible for the extended LINER emission in the outflowing gas in NGC 839. Our work may have important implications both for extended LINER emission seen in other galaxies and in the interpretation of objects with composite spectra. Finally, we present a scenario for the formation of E+A galaxies based upon our observations of NGC 839 and its relation to M82.

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