The BTSbot-nearby discovery of SN 2024jlf: rapid, autonomous follow-up probes interaction in an 18.5 Mpc Type IIP supernova

Abstract

We present observations of the Type IIP supernova (SN) 2024jlf, including spectroscopy beginning just 0.7 days (17 hours) after first light. Rapid follow-up was enabled by the new BTSbot-nearby program, which involves autonomously triggering target-of-opportunity requests for new transients in Zwicky Transient Facility data that are coincident with nearby (D<60 Mpc) galaxies and identified by the BTSbot machine learning model. Early photometry and non-detections shortly prior to first light show that SN 2024jlf initially brightened by >4 mag/day, quicker than 90% of Type II SNe. Early spectra reveal weak flash ionization features: narrow, short-lived (1.3 < τ ~[d] < 1.8) emission lines of Hα, He II, and C IV. Assuming a wind velocity of vw=50 km s-1, these properties indicate that the red supergiant progenitor exhibited enhanced mass-loss in the last year before explosion. We constrain the mass-loss rate to 10-4 < M~[M~yr-1] < 10-3 by matching observations to model grids from two independent radiative hydrodynamics codes. BTSbot-nearby automation minimizes spectroscopic follow-up latency, enabling the observation of ephemeral early-time phenomena exhibited by transients.