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An Interferometric Study of the Blue Compact Dwarf Galaxy IZW18

We present high spatial resolution observations of the blue compact dwarf galaxy IZW18 performed in the Halpha line with a scanning Fabry-Perot interferometer at the CFH telescope. Morphological structure of the galaxy in Halpha and in the red continuum is investigated. We also analyse the velocity...

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Bibliographic Details
Published in:arXiv.org 1996-12
Main Authors: Petrosian, A R, Boulesteix, J, Comte, G, Kunth, D, E Le Coarer
Format: Article
Language:English
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Summary:We present high spatial resolution observations of the blue compact dwarf galaxy IZW18 performed in the Halpha line with a scanning Fabry-Perot interferometer at the CFH telescope. Morphological structure of the galaxy in Halpha and in the red continuum is investigated. We also analyse the velocity field of the ionized gas. Besides the two compact HII components of the main body we find a population of small HII regions in its surroundings whose diameter distribution and Halpha luminosity function are consistent with those observed in dwarf Irregular galaxies. In the main body of the galaxy besides of the NW and SE red continuum peaks which are displaced with respect to the Halpha maxima, three new red condensations have been discovered. They have no clear Halpha counterparts. The velocity field in IZW18 shows peculiar motions superimposed on a quite regular background implying solid-body rotation with a gradient of about 70km/sec/ kpc. The Halpha line profiles exhibit an asymmetric structure, except for the NW main compact component. At least part of this asymmetry could result from accreted and/or expelled surrounding gas from the main star-forming core(s) of the galaxy. Contrary to previous suggestions that the south-west and north-east extensions of this galaxy are diffused emission produced by bipolar emitting gas we provide evidence that they are HII regions powered by star formation sites. The redshift of the Zwicky's "flare" has been measured for the first time and corresponds to the same velocity as IZW18. In such a context the optical ridge that appears to be an isolated morphological structure has a shape that may result from the gravitational interaction with the Zwicky's "flare" if this latter is a neighbour extreme dwarf object.
ISSN:2331-8422