M. J. F. Rosenberg, P. P. van der Werf, F. P. Israel
Supernovae play an integral role in the feedback of processed material into
the ISMof galaxies and are responsible for most of the chemical enrichment of
the universe. The rate of supernovae can also reveal the star formation
histories. Supernova rate is usually measured through the non-thermal radio
continuum luminosity, but in this paper we establish a quantitative
relationship between the [FeII]1.26 luminosity and supernova rate in a sample
of 11 near-by starburst galaxies. SINFONI data cubes are used to perform a
pixel pixel analysis of this correlation. Using Br equivalent width and
luminosity as the only observational inputs into Starburst 99, the supernova
rate is derived at each pixel and a map of supernova rate is created. This is
then compared morphologically and quantitatively to [FeII]1.26 luminosity map.
We find a strong linear and morphological correlation between supernova rate
and [FeII]1.26 on a pixel-pixel basis: log SNrate yr-1 pc-2 = (1.01 \pm 0.2)
\ast log[FeII]1.26 ergs-1 pc-2 - 41.17 \pm 0.9 The Starburst 99 derived
supernova rates are also in good agreement with the radio derived supernova
rates, which further demonstrates the strength of [FeII] as a tracer of
supernova rate. With the strong correlation found in this sample of galaxies,
we now qualitatively use [FeII]1.26 to derive supernova rate on either a
pixel-pixel or integrated galactic basis.
View original:
http://arxiv.org/abs/1201.3281
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