Late-time Hubble Space Telescope Ultraviolet Spectra of SN 2023ixf and SN 2024ggi Show Ongoing Interaction with Circumstellar Material

Abstract

We present far- and near-ultraviolet (UV) spectra of the Type II supernovae (SNe) SN~2023ixf from days 199 to 722 and SN~2024ggi at days 41 and 232. Both supernovae show broad, blueshifted, and asymmetric UV emission lines with an initial maximum velocity of 9000\,km\,s-1 and narrow unresolved emission in CIV. We compare the optical and UV emission-line profiles, showing that they evolve from two distinct velocity profiles to a single profile tracing the UV emission. We interpret this as shock power from interaction with circumstellar material coming to dominate over the radioactive-decay power from the inner ejecta. Comparing our observations to radiative transfer models with injected shock power, we find SN~2024ggi is best matched by Pshock, abs=1×1041\,erg\,s-1 at day 40, SN~2023ixf at day 300 and SN~2024ggi at day 200 are best matched by Pshock,abs=1×1040\,erg\,s-1, and SN~2023ixf at day 600 is best matched by Pshock,abs=5×1039\,erg\,s-1. From these models, we find the mass-loss rate of both supernovae increased just before explosion. For SN~2023ixf our mass-loss rates go from 4×10-5\,M\,yr-1 at 600 yr before explosion to 2×10-2\,M\,yr-1 at 15 yr prior to explosion. For SN~2024ggi, we find a mass-loss rate of 9×10-5\,M\,yr-1 at 150 yr before explosion and 1×10-3\,M\,yr-1 at 30 yr before explosion.