SN 2024aecx: A double-peaked rapidly evolving Type IIb supernova at 11 Mpc

Abstract

We present the results of low-resolution spectroscopic and densely sampled multi-band photometric follow-up of supernova (SN) 2024aecx. The SN was discovered in the spiral galaxy NGC 3521 (distance 11 Mpc) within a day after the explosion. The early spectra of SN 2024aecx show a weak signature of hydrogen lines, which disappeared in 30 days after the explosion. Light curves in all bands show a distinct feature of two peaks, and the first peak is likely due to the shock cooling emission. The early phase light curve evolution of SN 2024aecx has similarity with the typical Type IIb events, but the decay rate in different bands (e.g., m15 = 1.60 0.05 mag, g-band) is significantly faster in the post-peak phase. It attained the secondary maximum in 19 days (g-band) with a peak absolute magnitude of Mg = -17.94 0.10 mag. SN 2024aecx colors trend redder in early epochs (<8 days), followed by a duration in which it grows bluer, then later gets redder again >20 days after explosion. The analytical model fitting to the light curves reveals an envelope mass and progenitor radii in the range of 0.03 - 0.24 M and 169 - 200 R, respectively. Modeling of the pseudo-bolometric light curve suggests that synthesized 56Ni in the explosion was 0.15 M with ejecta mass and kinetic energy of 0.7 M and 0.16 × 1051 erg, respectively. The observational properties and modeling indicate that the SN~2024aecx progenitor belongs to the extended progenitor category.