Bibcode
DOI
Díaz, Rubén J.; Dottori, Horacio; Aguero, Maria P.; Mediavilla, Evencio; Rodrigues, Irapuan; Mast, Damian
Bibliographical reference
The Astrophysical Journal, Volume 652, Issue 2, pp. 1122-1128.
Advertised on:
12
2006
Journal
Citations
34
Refereed citations
29
Description
The huge star formation events that occur at some galactic centers do
not provide enough clues as to their origin, since the morphological
signatures of the triggering mechanism are smeared out in the timescale
of a few orbital revolutions of the galaxy core. Our high spatial
resolution three-dimensional near-infrared spectroscopy for the first
time reveals that a previously known hidden mass concentration is
located exactly at the youngest end of a giant star-forming arc. This
location, the inferred average cluster ages, and the dynamical times
clearly indicate that the interloper has left behind a spur of violent
star formation in M83, in a transient event lasting less than one
orbital revolution. The study of the origin (bar funneling or
cannibalized satellite) and fate (black hole merging or giant stellar
cluster) of this system could provide clues to the question of core
growing and morphological evolution in grand-design spiral galaxies. In
particular, our TreeSPH numerical modeling suggests that the two nuclei
could coalesce, forming a single massive core in about 60 million years
or less. This work is based on observations made at the Gemini South
Telescope.