Spitzer + VLTI-GRAVITY Measure the Lens Mass of a Nearby Microlensing Event

Abstract

We report the lens mass and distance measurements of the nearby microlensing event TCP J05074264+2447555. We measure the microlens parallax vector π E using Spitzer and ground-based light curves with constraints on the direction of lens-source relative proper motion derived from Very Large Telescope Interferometer (VLTI) GRAVITY observations. Combining this π E determination with the angular Einstein radius θ E measured by VLTI GRAVITY observations, we find that the lens is a star with mass M L = 0.495 0.063~M at a distance D L = 429 21~ pc. We find that the blended light basically all comes from the lens. The lens-source proper motion is μ rel,hel = 26.55 0.36~ mas\,yr-1, so with currently available adaptive-optics (AO) instruments, the lens and source can be resolved in 2021. This is the first microlensing event whose lens mass is unambiguously measured by interferometry + satellite parallax observations, which opens a new window for mass measurements of isolated objects such as stellar-mass black holes.