H I content of selected mid-infrared bright, starburst blue compact dwarf galaxies
Abstract
We report measurements of H I content in 11 nearby, actively star-forming, blue compact dwarf galaxies (BCDs) from 21 cm observations with the Arecibo telescope. These BCDs, selected by their red (W2[4.6 μm]-W3[12 μm]>3.8 mag) and bright mid-infrared (MIR) emission (W4[22 μm]< 7.6 mag), have high specific star formation rates (median sSFR 10-7.8 yr-1), similar to high redshift galaxies. H I emission was detected in six sources. We analyze our new detections in the context of previous H I observations of 218 dwarf irregulars (dIs) and BCDs in the literature. The M HI-M relation resulting from our observations confirms the dominating fraction of H I gas among baryons in galaxies with lower stellar masses. This Arecibo BCD sample has significantly lower median H I depletion timescales (τ HI 0.3 Gyr) than other dIs/BCDs ( 6.3 Gyr) in the literature. The majority of the sources (10/11) in the Arecibo sample are very red in W1[3.4 μm]-W2[4.6 μm] colour (> 0.8 mag) implying the presence of warm dust. We investigate the relation of τ HI with stellar mass (M) and sSFR. We find that τ HI is significantly anti-correlated with M for higher sSFR (>10-8.5 yr-1) and with sSFR for higher stellar mass (>107.5\, M) dwarf galaxies. The high sSFR for the BCDs in the Arecibo observed sample is mainly due to their high atomic gas star formation efficiency (SFE) or low τ HI. The low τ HI or high SFE in these sources is possibly due to runaway star formation in compact and dense super star clusters.
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