Four binary microlenses with directly measured masses

Cheongho Han; Andrzej Udalski; Chung-Uk Lee; Ian A. Bond; Michael D. Albrow; Sun-Ju Chung; Andrew Gould; Youn Kil Jung; Kyu-Ha Hwang; Yoon-Hyun Ryu; Yossi Shvartzvald; In-Gu Shin; Jennifer C. Yee; Weicheng Zang; Hongjing Yang; Sang-Mok Cha; Doeon Kim; Dong-Jin Kim; Seung-Lee Kim; Dong-Joo Lee; Yongseok Lee; Byeong-Gon Park; Richard W. Pogge; Przemek Mr\'oz; Micha{\l} K. Szyma\'nski; Jan Skowron; Rados{\l}aw Poleski; Igor Soszy\'nski; Pawe{\l} Pietrukowicz; Szymon Koz{\l}owski; Krzysztof A. Rybicki; Patryk Iwanek; Krzysztof Ulaczyk; Marcin Wrona; Mariusz Gromadzki; Mateusz J. Mr\'oz; Micha{\l} Jaroszy\'nski; Marcin Kiraga; Fumio Abe; David P. Bennett; Aparna Bhattacharya; Akihiko Fukui; Ryusei Hamada; Stela Ishitani Silva; Yuki Hirao; Naoki Koshimoto; Yutaka Matsubara; Shota Miyazaki; Yasushi Muraki; Tutumi Nagai; Kansuke Nunota; Greg Olmschenk; Cl\'ement Ranc; Nicholas J. Rattenbury; Yuki Satoh; Takahiro Sumi; Daisuke Suzuki; Sean K. Terry; Paul J. Tristram; Aikaterini Vandorou; Hibiki Yama

arXiv:2508.11079·astro-ph.IM·August 18, 2025

Four binary microlenses with directly measured masses

Cheongho Han, Andrzej Udalski, Chung-Uk Lee, Ian A. Bond, Michael D. Albrow, Sun-Ju Chung, Andrew Gould, Youn Kil Jung, Kyu-Ha Hwang, Yoon-Hyun Ryu, Yossi Shvartzvald, In-Gu Shin, Jennifer C. Yee, Weicheng Zang, Hongjing Yang, Sang-Mok Cha, Doeon Kim, Dong-Jin Kim, Seung-Lee Kim

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TL;DR

This study identified four binary microlensing events with directly measured masses, revealing mostly low-mass stellar lenses within the Galactic disk, and demonstrating the effectiveness of combined light curve features for mass determination.

Contribution

The paper presents a method to measure binary lens masses using resolved caustic crossings and microlens parallax, applied to four recent microlensing events, providing new mass and distance estimates.

Findings

01

Three lenses are low-mass M-dwarfs within 2.5 kpc.

02

One lens system has a Sun-like primary at 4.5 kpc.

03

The method enables precise mass and distance measurements for binary lenses.

Abstract

We investigated binary lens events from the 2022-2024 microlensing surveys, aiming to identify events suitable for lens mass measurements. We focused on two key light curve features: distinct caustic spikes with resolved crossings for measuring the angular Einstein radius ( $θ_{E}$ ), and long durations enabling microlens-parallax ( $π_{E}$ ) measurements. Four events met these criteria: KMT-2022-BLG-1479, KMT-2023-BLG-0932, OGLE-2024-BLG-0142, and KMT-2024-BLG-1309. We estimated the angular Einstein radius by combining the normalized source radius measured from modeling the resolved caustic spikes with the angular source radius derived from the source color and magnitude. Additionally, we determined the microlens parallax through light curve modeling, considering higher-order effects caused by the orbital motions of Earth and the binary lens. With measurements of the event…

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