Abstract
The extended ultraviolet (XUV) disk galaxies are some of the most interesting objects studied in the last few years. The UV emission, revealed by GALEX, extends well beyond the optical disk after the drop in Hα emission, the usual tracer of star formation. This shows that sporadic star formation can occur in a large fraction of the HI disk at radii up to 3 or 4 times the optical radius. In most galaxies, these regions are poor in stars and are dominated by under-recycled gas; they therefore bear some similarity to the early stages of spiral galaxies and high-redshift galaxies. One remarkable example is M83, a nearby galaxy with an extended UV disk reaching 2 times the optical radius. It offers the opportunity to search for molecular gas and to characterize the star formation in outer disk regions, traced by the UV emission. We obtained CO(2-1) observations with ALMA of a small region in a 1.5′ × 3′ rectangle located at rgal = 7.85′ over a bright UV region of M83. There is no CO detection, in spite of the abundance of HI gas, and the presence of young stars traced by their HII regions. Our spatial resolution (17 pc × 13 pc) was perfectly fitted to detect giant molecular clouds (GMC), but none were detected. The corresponding upper limits occur in a region of the Kennicutt–Schmidt diagram where dense molecular clouds are expected. Stacking our data over HI-rich regions, using the observed HI velocity, we obtain a tentative detection corresponding to a H2-to-HI mass ratio of < 3 × 10−2. A possible explanation is that the expected molecular clouds are CO-dark because of the strong UV radiation field. This field preferentially dissociates CO with respect to H2, due to the small size of the star-forming clumps in the outer regions of galaxies.
Highlights
Over the last decades extended ultraviolet (XUV) disk galaxies have gained interest
We used the selection criteria corresponding to FUV/NUV GALEX images (Gil de Paz et al 2007a), using the peaks of UV emission, as well as the correlation with the HI emission from the THINGS survey (Walter et al 2008). By choosing these peaks of emission we focused on the outer parts of the UV disks, beyond the r25 optical radius, where we are interested in detecting the molecular gas
To analyse the impact of our observations in the context of star formation in outer XUV disks, we have investigated the behaviour in the Kennicutt-Schmidt diagram of the tentative CO detections, in plotting the equivalent molecular gas surface density, and in star formation surface density
Summary
Over the last decades extended ultraviolet (XUV) disk galaxies have gained interest. Gil de Paz et al (2005) shows the presence of UV-bright complexes in the outermost of some galaxy disks. UV-bright disks extending up to 3–4 times their optical radius (R25) have been reported in about 30% of spiral galaxies (Thilker et al 2005a; Gil de Paz et al 2007b) Their extended UV emission covers a significant fraction of the area detected in HI at 21 cm wavelength (Bigiel et al 2010; Boissier et al 2003; Zaritsky & Christlein 2007). The UV star formation (SF) is related to this extending HI structure, for example showing evidence of metal enrichment (Gil de Paz et al 2007a) Their far-ultraviolet (FUV) and nearultraviolet (NUV) colours are generally consistent with young populations of O and B stars, which probe a wider range of ages than Hα, and at low SF levels the number of ionizing stars may be very small (Dessauges-Zavadsky et al 2014; Boissier et al 2003)
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