Author:
Han Cheongho,Udalski Andrzej,Lee Chung-Uk,Kim Doeon,Zhu Wei,Albrow Michael D.,Chung Sun-Ju,Gould Andrew,Hwang Kyu-Ha,Jung Youn Kil,Kim Hyoun-Woo,Ryu Yoon-Hyun,Shin In-Gu,Shvartzvald Yossi,Yee Jennifer C.,Zang Weicheng,Cha Sang-Mok,Kim Dong-Jin,Kim Seung-Lee,Lee Dong-Joo,Lee Yongseok,Park Byeong-Gon,Pogge Richard W.,Kim Chun-Hwey,Kim Woong-Tae,Mróz Przemek,Szymański Michał K.,Skowron Jan,Poleski Radosław,Soszyński Igor,Pietrukowicz Paweł,Kozłowski Szymon,Rybicki Krzysztof A.,Iwanek Patryk,Ulaczyk Krzysztof,Wrona Marcin,Gromadzki Mariusz,Buckley David,Dong Subo,Luo Ali
Abstract
Aims. With the aim of interpreting anomalous lensing events with no suggested models, we conducted a project of reinvestigating microlensing data collected in and before the 2019 season. In this work, we report a multi-planet system, OGLE-2019-BLG-0468L, that was found as a result of this project.
Methods. The light curve of the lensing event OGLE-2019-BLG-0468, which consists of three distinctive anomaly features, could not be explained by the usual binary-lens or binary-source interpretations. We find a solution that explains all anomaly features with a triple-lens interpretation, in which the lens is composed of two planets and their host, making the lens the fourth multi-planet system securely found by microlensing.
Results. The two planets have masses of ~3.4 MJ and ~10.2 MJ, and they are orbiting around a G-type star with a mass of ~0.9 M⊙ and a distance of ~4.4 kpc. The host of the planets is most likely responsible for the light of the baseline object, although the possibility of the host being a companion to the baseline object cannot be ruled out.
Subject
Space and Planetary Science,Astronomy and Astrophysics
Cited by
11 articles.
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