KMT-2024-BLG-3237: Another Free-Floating Planet Candidate with Angular Einstein Radius Measurement

Abstract

Planet formation theories suggest the presence of free-floating planets (FFPs) that are ejected from their formation sites. While these planets emit very little light, they can be identified through gravitational microlensing. Here, we report the discovery of a FFP candidate in the microlensing event KMT-2024-BLG-3237. The observed light curve exhibits strong finite-source effects characterized by a small amplitude ( 0.9\, mag) and a short timescale ( 3\, days). The analysis yields an Einstein timescale of t E = 0.540.02\, days and an angular Einstein radius of θ E = 6.300.48\,μ as. The measurements make it possible to estimate the lens mass as M 102\,M\,(π rel/16\,μ as)-1, where π rel is the relative lens-source parallax. Depending on the unknown π rel, the lens could be a Neptune-mass planet (π rel 0.1\, mas) or a Saturn-mass planet (π rel 16\,μ as). A Bayesian analysis yields the lens mass M = 67.3-42.5+103.2\,M and the lens distance D L = 7.34-2.11+0.96\, kpc. This lens is the eleventh isolated microlens with a measurement of θ E < 10\,μ as. We find that additional searches for possible signatures of a lens host do not show significant evidence for the host.