Systematic KMTNet Planetary Anomaly Search, Paper II: Six New q<2× 10-4 Mass-ratio Planets

Abstract

We apply the automated AnomalyFinder algorithm of Paper I (Zang et al. 2021b) to 2018-2019 light curves from the 13\, deg2 covered by the six KMTNet prime fields, with cadences ≥ 2\, hr-1. We find a total of 11 planets with mass ratios q<2× 10-4, including six newly discovered planets, one planet that was reported in Paper I, and recovery of four previously discovered planets. One of the new planets, OGLE-2018-BLG-0977Lb, is in a planetary-caustic event, while the other five (OGLE-2018-BLG-0506Lb, OGLE-2018-BLG-0516Lb, OGLE-2019-BLG-1492Lb, KMT-2019-BLG-0253, and KMT-2019-BLG-0953) are revealed by a "dip" in the light curve as the source crosses the host-planet axis on the opposite side of the planet. These subtle signals were missed in previous by-eye searches. The planet-host separations (scaled to the Einstein radius), s, and planet-host mass ratios, q, are, respectively, (s,q× 105) = (0.88, 4.1), (0.96 0.10, 8.3), (0.94 0.07, 13), (0.97 0.07, 18), (0.970.04,4.1), and (0.74,18), where the "" indicates a discrete degeneracy. The 11 planets are spread out over the range -5< q < -3.7. Together with the two planets previously reported with q 10-5 from the 2018-2019 non-prime KMT fields, this result suggests that planets toward the bottom of this mass-ratio range may be more common than previously believed.

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