Zusammenfassung
We aim to quantify the molecular gas reservoir in a subset of 6
low-metallicity galaxies from the Herschel Dwarf Galaxy Survey with newly
acquired CO data, and link this reservoir to the observed star formation
activity. We present CO(1-0), CO(2-1), and CO(3-2) observations obtained at the
ATNF Mopra 22-m, APEX, and IRAM 30-m telescopes, as well as CII 157um and
OI 63um observations obtained with the Herschel/PACS spectrometer in the 6
galaxies: Haro11, Mrk1089, Mrk930, NGC4861, NGC625, and UM311. We derive
molecular gas mass from several methods including the use of the CO-to-H2
conversion factor Xco (both Galactic and metallicity-scaled values) and of dust
measurements. The molecular and atomic gas reservoirs are compared to the star
formation activity. We also constrain the physical conditions of the molecular
clouds using the non-LTE code RADEX and the spectral synthesis code Cloudy. We
detect CO in 5 of the 6 galaxies, including first detections in Haro11 (Z~0.4
Zsun), Mrk930 (0.2 Zsun), and UM311 (0.5 Zsun), but CO remains undetected in
NGC4861 (0.2 Zsun). The CO luminosities are low while CII is bright in these
galaxies, resulting in CII/CO(1-0)>10000. Our dwarf galaxies are in
relatively good agreement with the Schmidt-Kennicutt relation for total gas.
They show short molecular depletion time scales, even when considering
metallicity-scaled Xco factors. Those galaxies are dominated by their HI gas,
except Haro11 which has high star formation efficiency and is dominated by
ionized and molecular gas. We determine the mass of each ISM phase in Haro11
using Cloudy and estimate an equivalent Xco factor which is 10 times higher
than the Galactic value. Overall, our results confirm the emerging picture that
CO suffers from significant selective photodissociation in low-metallicity
dwarf galaxies.
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