The central spectra of massive star-forming galaxies

Abstract

We have examined the nuclear spectra of very massive star-forming galaxies at z 0 to understand how they differ from other galaxies with comparable masses, which are typically passive. We selected a sample of 126 nearby massive star-forming galaxies (<100~ Mpc, 1011.3~M ≤ M stellar ≤ 1011.7~M, 1 ~ M~yr-1< SFR <13 ~ M~yr-1) from the 2MRS-Bright WXSC catalogue. LEDA morphologies indicate at least 63\% of our galaxies are spirals, while visual inspection of Dark Energy Survey images reveals 75\% of our galaxies to be spirals with the remainder being lenticular. Of our sample 59 have archival nuclear spectra, which we have modelled and subsequently measured emission lines ([NII]λ 6583, Hαλ 6563, [OIII]λ 5008, and Hβλ 4863), classifying galaxies as star-forming, LINERS, or AGNs. Using a BPT diagram we find 83 6 \% of our galaxies, with sufficient signal-to-noise to measure all 4 emission lines, to be LINERs. Using the [NII]λ 6583/Hαλ 6563 emission line ratio alone we find that 79 6 \% of the galaxies (46 galaxies) with archival spectra are LINERs, whereas just 30\% of the overall massive galaxy population are LINERs (Belfiore et al. 2016). Our sample can be considered a local analogue of the Ogle et al. (2016, 2019) sample of z 0.22 massive star-forming galaxies in terms of selection criteria, and we find 64\% of their galaxies are LINERs using SDSS spectra. The high frequency of LINER emission in these massive star-forming galaxies indicates that LINER emission in massive galaxies may be linked to the presence of gas that fuels star formation.