Not just PAH3.3: why galaxies turn red in the Near-Infrared
Abstract
We measure the spectral properties of a sample of 20 galaxies at z~0.35 selected for having surprisingly red JWST/NIRCAM F200W-F444W colors. 19 galaxies were observed with JWST/NIRSpec in the PRISM configuration, while one galaxy was observed with the high resolution gratings. 17/20 galaxies in our sample exhibit strong 3.3 μ m polycyclic aromatic hydrocarbon (PAH3.3) emission (equivalent width EW(PAH3.3)>0.03μ m). In these galaxies, the strength of the color excess does not depend on environment and it correlates with EW(PAH3.3). Nonetheless, the presence of the PAH3.3 alone can not fully explain the color excess, as an equivalent width of ~0.1μ m is able to increase the color of galaxies by only 0.13 mag. A contribution from a hot dust component is required to explain the excess. Both the EW(PAH3.3) and flux correlate with the Hα equivalent width and flux, suggesting that they are produced by the same mechanism. 5/20 galaxies showing PAH would be classified as passive based on broad band rest frame colors ((B-V) and/or UVJ diagrams) and are hence "faux-passive". Of these, 3 galaxies have a significantly lower EW(PAH3.3) given their color and also have low EW(Hα) and we tentatively conclude this behaviour is due to the presence of an AGN. The three galaxies with no PAH3.3 in emission have passive spectra, as do the 8 galaxies in our sample with normal F200W-F444W colors. We therefore conclude that the PAH3.3 feature is linked to dust-enshrouded star formation. The dust corrected SFR from PAH3.3 is a factor of 3.5 higher than the SFR obtained from Hα, suggesting that these galaxies are characterized by significant amounts of dust.
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