OGLE-2019-BLG-0960Lb: The Smallest Microlensing Planet

Jennifer C. Yee; Weicheng Zang; Andrzej Udalski; Yoon-Hyun Ryu,; Jonathan Green; Steve Hennerley; Andrew Marmont; Takahiro Sumi; Shude Mao,; Mariusz Gromadzki; Przemek Mr\'oz; Jan Skowron; Radoslaw Poleski; Micha{\l}; K. Szyma\'nski; Igor Soszy\'nski; Pawe{\l} Pietrukowicz; Szymon Koz{\l}owski,; Krzysztof Ulaczyk; Krzysztof A. Rybicki; Patryk Iwanek; Marcin Wrona; Michael; D. Albrow; Sun-Ju Chung; Andrew Gould; Cheongho Han; Kyu-Ha Hwang; Youn Kil; Jung; Hyoun-Woo Kim; In-Gu Shin; Yossi Shvartzvald; Sang-Mok Cha; Dong-Jin; Kim; Seung-Lee Kim; Chung-Uk Lee; Dong-Joo Lee; Yongseok Lee; Byeong-Gon; Park; Richard W. Pogge; Etienne Bachelet; Grant Christie; Markus P.G.; Hundertmark; Dan Maoz; Jennie McCormick; Tim Natusch; Matthew T. Penny,; Rachel A. Street; Yiannis Tsapras; Charles A. Beichman; Geoffery Bryden,; Sebastiano Calchi Novati; Sean Carey; B. Scott Gaudi; Calen B. Henderson,; Samson Johnson; Wei Zhu; Ian A. Bond; Fumio Abe; Richard Barry; David P.; Bennett; Aparna Bhattacharya; Martin Donachie; Hirosane Fujii; Akihiko Fukui,; Yuki Hirao; Stela Ishitani Silva; Yoshitaka Itow; Rintaro Kirikawa; Iona; Kondo; Naoki Koshimoto; Man Cheung Alex Li; Yutaka Matsubara; Yasushi Muraki,; Shota Miyazaki; Greg Olmschenk; Cl\'ement Ranc; Nicholas J. Rattenbury; Yuki; Satoh; Hikaru Shoji; Daisuke Suzuki; Yuzuru Tanaka; Paul J. Tristram; Tsubasa; Yamawaki; Atsunori Yonehara

arXiv:2101.04696·astro-ph.EP·October 13, 2021

OGLE-2019-BLG-0960Lb: The Smallest Microlensing Planet

Jennifer C. Yee, Weicheng Zang, Andrzej Udalski, Yoon-Hyun Ryu,, Jonathan Green, Steve Hennerley, Andrew Marmont, Takahiro Sumi, Shude Mao,, Mariusz Gromadzki, Przemek Mr\'oz, Jan Skowron, Radoslaw Poleski, Micha{\l}, K. Szyma\'nski, Igor Soszy\'nski, Pawe{\l} Pietrukowicz

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TL;DR

This paper reports the discovery of the smallest microlensing planet to date, demonstrating the capability of current methods to measure very low mass-ratio planets and exploring degeneracies in microlensing models.

Contribution

It presents the detection and analysis of the smallest known microlensing planet, providing insights into the mass-ratio function and degeneracies in microlensing modeling.

Findings

01

The planet's mass is estimated at 1.4--3.1 Earth masses.

02

The host star's mass is estimated at 0.3--0.6 solar masses.

03

Detection sensitivity is maximized for planets just outside resonant caustic boundaries.

Abstract

We report the analysis of OGLE-2019-BLG-0960, which contains the smallest mass-ratio microlensing planet found to date (q = 1.2--1.6 x 10^{-5} at 1-sigma). Although there is substantial uncertainty in the satellite parallax measured by Spitzer, the measurement of the annual parallax effect combined with the finite source effect allows us to determine the mass of the host star (M_L = 0.3--0.6 M_Sun), the mass of its planet (m_p = 1.4--3.1 M_Earth), the projected separation between the host and planet (a_perp = 1.2--2.3 au), and the distance to the lens system (D_L = 0.6--1.2 kpc). The lens is plausibly the blend, which could be checked with adaptive optics observations. As the smallest planet clearly below the break in the mass-ratio function (Suzuki et al. 2016; Jung et al. 2019), it demonstrates that current experiments are powerful enough to robustly measure the slope of the…

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