The far-infrared/radio correlation for a sample of strongly lensed dusty star-forming galaxies detected by Herschel
Date Issued
2022
Author(s)
Giulietti, M.
•
•
Lapi, A.
•
•
Enia, A. F. M.
•
Negrello, M.
•
D'Amato, Q.
•
Behiri, M.
•
De Zotti, G.
Abstract
We investigate the radio-far infrared (FIR) correlation for a sample of $28$
bright high-redshift ($1 \lesssim z \lesssim 4$) star-forming galaxies selected
in the FIR from the Herschel-ATLAS fields as candidates to be strongly
gravitationally lensed. The radio information comes either from high
sensitivity dedicated ATCA observations at $2.1$ GHz or from cross-matches with
the FIRST survey at $1.4$ GHz. By taking advantage of source brightness
possibly enhanced by lensing magnification, we identify a weak evolution with
redshift out to $z\lesssim 4$ of the FIR-to-radio luminosity ratio $q_{\rm
FIR}$. We also find that the $q_{\rm FIR}$ parameter as a function of the radio
power $L_{1.4\,\rm GHz}$ displays a clear decreasing trend, similarly to what
is observed for optically/radio selected lensed quasars found in literature,
yet covering a complementary region in the $q_{\rm FIR}-L_{1.4\,\rm GHz}$
diagram. We interpret such a behavior in the framework of an in-situ galaxy
formation scenario, as a result of the transition from an early dust-obscured
star-forming phase (mainly pinpointed by our FIR selection) to a late
radio-loud quasar phase (preferentially sampled by the optical/radio
selection).
Issn Identifier
0035-8711
Rights
open.access
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