ALMA resolves the first strongly-lensed Optical/NIR-dark galaxy
Abstract
We present high-resolution (0.1arcsec) ALMA observations of the strongly-lensed galaxy HATLASJ113526.2-01460 at redshift z3.1 discovered in the Gama 12 th field of the Herschel-ATLAS survey. The gravitationally lensed system is remarkably peculiar in that neither the background source nor the foreground lens show a clearly detected optical/NIR emission. We perform accurate lens modeling and source morphology reconstruction in three different (sub-)mm continuum bands, and in the C[II] and CO(8-7) spectral lines. The modeling indicates a foreground lensing (likely elliptical) galaxy with mass 1011\, M at z1.5, while the source (sub-)mm continuum and line emissions are amplified by factors μ6-13. We estimate extremely compact sizes 0.5 kpc for the star-forming region and 1 kpc for the gas component, with no clear evidence of rotation or of ongoing merging events. We perform broadband SED-fitting and retrieve the intrinsic de-magnified physical properties of the source, which is found to feature a very high star-formation rate 103\, M yr-1, that given the compact sizes is on the verge of the Eddington limit for starbursts; the radio luminosity at 6 cm from available EVLA observations is consistent with the star-formation activity. The galaxy is found to be extremely rich in gas 1011\, M and dust 109\, M. The stellar content 1011\, M places the source well above the main sequence of starforming galaxies, indicating that the starburst is rather young with estimated age 108 yr. Our results indicate that the overall properties of HATLASJ113526.2-01460 are consistently explained by in-situ galaxy formation and evolution scenarios.
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