Infrared imaging and spectroscopy of NGC 7469

Details Infrared imaging and spectroscopy of NGC 7469 Infrared imaging and spectroscopy of NGC 7469

May 1995

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1995apj...444..129g&link_type=abstract

Astrophysical Journal, Part 1 (ISSN 0004-637X), vol. 444, no. 1, p. 129-145

Astronomy and Astrophysics

Astronomy

141

Astronomical Spectroscopy, Galactic Nuclei, Infrared Astronomy, Infrared Imagery, Infrared Spectroscopy, Near Infrared Radiation, Seyfert Galaxies, Emission, Interacting Galaxies, Interstellar Matter, Molecular Gases, Spatial Distribution, Star Formation, Star Formation Rate, Starburst Galaxies

Scientific paper

As part of an extensive study of the infrared properties of luminous galactic nuclei we report here subarcsecond-resolution near-infrared imaging and spectroscopy of the nucleus of the Seyfert 1 galaxy NGC 7469. Our measurements elucidate for the first time the spatial distribution of the near-infrared continuum and a number of bright near-infrared lines (Br gamma, (Fe II), (Si VI), H2, He I, and CO) on a scale of less than a few hundred parsecs. We find that these tracers originate from three distinct components: the nucleus, a 1.5 sec (480 pc) radius circumnuclear ring/spiral-arm system with embedded knots, and a 1 sec ridge of blueshifted, radially streaming gas emanating southward from the nucleus. The circumnuclear ring is the location of a powerful starburst deeply embedded in a large concentration of molecular gas and dust and has a luminosity of approximately 3 x 1011 solar luminosity, two-thirds of the bolometric luminiosity of the entire galaxy. It contains a number of supergiant star formation regions with a few 104 OB stars each. Our 0.4 sec resolution near-infrared images do not show evidence for a stellar bar. Gas influx into the nucleus and starburst ring were most likely triggered by greater than or equal to 108 yr ago by the interaction of NGC 7469 with its neighbour, IC 5283. A comparison of the mass derived from gas and stellar dynamics and from the CO 1-0 millimeter line emmision suggests that the conversion factor from molecular hydrogen column density to integrated CO flux (X = N(H2)/I(CO)) in the central 800 pc is significantly smaller than in the Galactic disk, presumably as the result of the impact of the intense star formation activity on the surrounding interstellar medium. We have carried out a quantitive analysis of the ring's visible, infrared, and radio emission using star cluster models. The data are well fit by two types of solutions. One possibility is that the star formation rate has been constant (approximately 30 solar mass/yr) over the last several 107 yr and stars more massive than 30-40 solar mass have not been forming during this period. An alternative model that does not require an upper mass cutoff is a decaying burst with a decay time significantly less than its present age (approximately 1.5 x 107 yr). For both star formation histories and for small N(H2)/I(CO) conversion factor mentioned above, the star formation efficiency in NGC 7469 is high and the burst is soon going to end because the gas reservoir is exhausted. Our 2.1 micrometers H2 S(1) line maps show that there is a large concentration of molecular gas close to the Seyfert 1 nucleus of NGC 7469. The central 102 pc of NGC 7469 contains 108+/-1 solar mass of neutral interstellar gas, consistent with current unifying models for Seyfert 1 and 2 nuclei. Broad (FWHM 1400 km/s) 1.96 micrometers (Si VI) line emission arises in moderately dense (n e greater than or equal to 102/cc) gas within a few 102 pc from the nucleus. Our work clearly shows that NGC 7469 is a luminous Seyfert galaxy whose total energy output is predominantly powered by star formation.

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