KMT-2023-BLG-2669: Ninth Free-floating Planet Candidate with θ E measurements
Abstract
We report a free-floating planet (FFP) candidate identified from the analysis of the microlensing event KMT-2023-BLG-2669. The lensing light curve is characterized by a short duration ( 3\, days) and a small amplitude ( 0.7\, mag). From the analysis, we find the Einstein timescale of t E 0.33\, days and the Einstein radius of θ E 4.41\,μ as. These measurements enable us to infer the lens mass as M = 8\,M (π rel / 0.1\, mas)-1, where π rel is the relative lens-source parallax. The inference implies that the lens is a sub-Neptune- to Saturn-mass object depending on its unknown distance. This is the ninth isolated planetary-mass microlens with θ E < 10\,μ as, which (as shown by gould22) is a useful threshold for a FFP candidate. We conduct extensive searches for possible signals of a host star in the light curve, but find no strong evidence for the host. We investigate the possibility of using late-time high-resolution imaging to probe for possible hosts. In particular, we discuss that for the case of finite-source point-lens FFP candidates, it would be possible to search for very wide separation hosts immediately, although such searches are "high-risk, high-reward".
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