We present comprehensive optical observations of SN~2021gmj, a type II supernova (SN~II) discovered within a day of explosion by the Distance Less Than 40~Mpc (DLT40) survey. Follow up observations show that SN~2021gmj is a low luminosity SN~II (LL~SN~II), with a peak magnitude $M_V = -15.45$ and Fe II velocity of $\sim 1800 \ \mathrm{km} \ \mathrm{s}^{-1}$ at 50 days past explosion. Using the expanding photosphere method we derive a distance of $17.8^{+0.6}_{-0.4}$~Mpc. From the tail of the light-curve we obtain a radioactive nickel mass of $0.014 \pm 0.001$ $\mathrm{M}_{\odot}$. The presence of circumstellar material (CSM) is suggested by the early light curve, early spectra and the presence of high velocity H$\alpha$ in absorption. Analytical shock-cooling models of the early light curve cannot reproduce the fast rise, also supporting the idea that the early emission is partially powered by the interaction of the SN ejecta and CSM. The inferred low CSM mass of 0.025 $\mathrm{M}_{\odot}$ in our hydrodynamic-modeling light curve analysis is also consistent with our spectroscopic observations. We observe a broad feature near 4600 A, which may be high ionization lines of C, N or/and He II. This feature is reproduced by radiation hydrodynamic simulations of red supergiants with extended atmospheres. Several LL~SNe~II show similar spectral features implying that high density material around the progenitor may be common among them.
Comment: Submitted to ApJ