http://arxiv.org/abs/2208.06364
Until now, our knowledge of the extragalactic Universe at mid-IR wavelengths (> 5 microns) was limited to rare active galactic nuclei (AGN) and bright normal galaxies up to z~2. The advent of the JWST with its Mid-Infrared Instrument (MIRI) is expected to revolutionise the ability of the mid-IR regime as a competitive wavelength domain to probe the high-z Universe. In this work we present a first study of the nature of JWST MIRI 7.7 micron sources selected with > 3-sigma significance from the lensing cluster field SMACS 0723. We model their spectral energy distribution fitting with 13 JWST and HST broad bands, in order to obtain photometric redshifts and derived physical parameters for all these sources. We find that this 7.7 micron galaxy sample is almost exclusively composed of normal galaxies up to zphot~6.8 and has an AGN at zphot=7.2. The vast majority of our galaxies have [3.6]-[7.7]<0 colours and very few of them need high dust extinction values (A_V=3 -4) for their SED fitting. The resulting lensing-corrected stellar masses span the range 10^7-10^{11} Msun. Overall, our results clearly show that the first MIRI 7.7 micron observations of deep fields are already useful to probe the high-redshift Universe and suggest that the deeper 7.7 micron observations to be available very soon will open up, for the first time, the epoch of reionisation at mid-IR wavelengths.
E. Iani, K. Caputi, P. Rinaldi, et. al.
Mon, 15 Aug 22
31/54
Comments: 10 pages including 8 figures and 1 table. Submitted to ApJ
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