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A&A 398, 501-515 (2003)
DOI: 10.1051/0004-6361:20021587
Distribution of star-forming complexes in dwarf irregular galaxies
B. R. Parodi and B. BinggeliAstronomisches Institut der Universität Basel, Venusstrasse 7, 4102 Binningen, Switzerland
e-mail: parodi@astro.unibas.ch;binggeli@astro.unibas.ch
(Received 21 August 2002 / Accepted 25 October 2002 )
Abstract
We study the distribution of bright star-forming complexes
in a homogeneous sample of 72 late-type ("irregular") dwarf galaxies
located within the 10 Mpc volume. Star-forming complexes are
identified as bright lumps in
B-band galaxy images and isolated by
means of the unsharp-masking method. For the sample as a whole
the radial number distribution of bright lumps largely traces the
underlying exponential-disk light profiles, but peaks at a 10 percent smaller scale length. Moreover, the presence of a tail
of star
forming regions out to at least six optical scale lengths provides
evidence against a systematic star formation truncation within
that galaxy extension. Considering these findings, we apply a scale
length-independent concentration index, taking into account the
implied non-uniform random spread of star formation regions throughout
the disk. The number profiles frequently manifest a second, minor peak
at about two scale lengths. Relying on a two-dimensional stochastic
self-propagating star formation model, we show these secondary peaks
to be consistent with triggered star formation; for a few of the
brighter galaxies a peculiar peak distribution is observed that is
conceivably due to the onset of shear provided by differential
rotation. On scales between 100 and 1000 pc, and by taking into
account exponential-disk structure, bright lumps reveal cluster
dimensions between 1.3 and 2, with a weak trend to higher dimensions
for brighter galaxies. Cluster dimension weakly anticorrelates with
the lumpiness index (the fraction of the total galaxy light due to the
light contributed by the lumps), the latter index showing no
dependence on luminosity. Lump spreading within the disk, as measured
by the concentration index, and lump clustering, as given by the
cluster dimension, are not linked to each other. Interpreting cluster
dimension in terms of porosity of a self-similar intragalactic medium,
we derive a relation between current star formation rate, scale
length, and porosity.
Key words: galaxies: irregular -- galaxies: structure -- stars: formation
Offprint request: B. R. Parodi, parodi@astro.unibas.ch
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