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COOL-LAMPS I. an Extraordinarily Bright Lensed Galaxy at Redshift 5.04

Astrophysical journal/˜The œAstrophysical journal(2021)

Cited 14|Views43
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Abstract
We report the discovery of COOL J1241+2219, a strongly lensed galaxy at redshift z = 5.043 0.002 with observed magnitude z(AB) = 20.47, lensed by a moderate-mass galaxy cluster at z = 1.001 0.001. COOL J1241+2219 is the brightest lensed galaxy currently known at optical and near-infrared wavelengths at z greater than or similar to 5; it is similar to 5 times brighter than the prior record-holder lensed galaxy, and several magnitudes brighter than the brightest unlensed galaxies known at these redshifts. It was discovered as part of COOL-LAMPS, a collaboration initiated to find strongly lensed systems in recent public optical imaging data. We characterize the lensed galaxy, as well as the central galaxy of the lensing cluster using ground-based grizJH imaging and optical spectroscopy. We report model-based magnitudes, and derive stellar masses, dust content, metallicity, and star-formation rates via stellar-population synthesis modeling. Our lens mass modeling, based on ground-based imaging, implies a median source magnification of similar to 30, which puts the stellar mass and star-formation rate (in the youngest age bin, closest to the epoch of observation) at logM(*) = 10.11(-0.26)(+0.21) and SFR = 27(-9)(+13)= M-circle dot yr(-1), respectively. We constrain a star-formation history for COOL J1241+2219 consistent with constant star formation across similar to 1 Gyr of cosmic time, and that places this galaxy on the high-mass end of the star-forming main sequence. COOL J1241+2219 is two to four times more luminous than a galaxy with the characteristic UV luminosity at these redshifts. The UV continuum slope beta = -2.2 0.2 places this galaxy on the blue side of the observed distribution of galaxies at z = 5, although the lack of Ly alpha emission indicates dust sufficient to suppress this emission.
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Key words
High-redshift galaxies,Galaxies,Ultraviolet astronomy,Astronomical methods,Star formation,Gravitational lensing,Strong gravitational lensing,Surveys,Spectral energy distribution,Photometry,Spectroscopy,Galaxy properties
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