# OGLE-2018-BLG-1011L\lowercase{b,c}: Microlensing Planetary System with   Two Giant Planets Orbiting a Low-mass Star

**Authors:** Cheongho Han, David P. Bennett, Andrzej Udalski, Andrew Gould, Ian A., Bond, Yossi Shvartzvald, Kay-Sebastian Nikolaus, Markus Hundertmark, Valerio, Bozza, Arnaud Cassan, Yuki Hirao, Etienne Bachelet, Michael D. Albrow, Sun-Ju, Chung, Kyeongsoo Hong, Kyu-Ha Hwang, Chung-Uk Lee, Yoon-Hyun Ryu, In-Gu Shin,, Jennifer C. Yee, Youn Kil Jung, Sang-Mok Cha, Doeon Kim, Dong-Jin Kim,, Hyoun-Woo 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, Radek, Poleski, Igor Soszy\'nski, Pawe{\l} Pietrukowicz, Szymon Koz{\l}owski,, Krzysztof Ulaczyk, Krzysztof A. Rybicki, Patryk Iwanek, Marcin Wrona Fumio, Abe, Richard Barry, Aparna Bhattacharya, Martin Donachie, Akihiko Fukui,, Yoshitaka Itow, Kohei Kawasaki, Iona Kondo, Naoki Koshimoto, Man Cheung Alex, Li, Yutaka Matsubara, Yasushi Muraki, Shota Miyazaki, Masayuki Nagakane,, Cl\'ement Ranc, Nicholas J. Rattenbury, Haruno Suematsu, Denis J. Sullivan, Takahiro Sumi, Daisuke Suzuki, Paul J. Tristram, Atsunori Yonehara, Pascal, Fouqu\'e, Shude Mao, Tianshu Wang, Weicheng Zang, Wei Zhu, Matthew T. Penny,, Charles A. Beichman, Geoffery Bryden, Sebastiano Calchi Novati, B. Scott, Gaudi, Calen B. Henderson, Savannah Jacklin, Keivan G. Stassun

arXiv: 1907.01741 · 2019-09-04

## TL;DR

This paper reports the discovery of a multiplanetary system with two giant planets orbiting a low-mass star, identified through microlensing event analysis, and provides detailed characterization of the system's properties.

## Contribution

The study presents the first detailed analysis of a multiplanetary system with two giant planets around a low-mass star using microlensing data, revealing its unique distance and planetary configuration.

## Key findings

- Two giant planets with masses ~1.8 and ~2.8 Jupiter masses.
- Host star with a mass ~0.18 solar masses.
- System located at ~7.1 kpc, the farthest known among such systems.

## Abstract

We report a multiplanetary system found from the analysis of microlensing event OGLE-2018-BLG-1011, for which the light curve exhibits a double-bump anomaly around the peak. We find that the anomaly cannot be fully explained by the binary-lens or binary-source interpretations and its description requires the introduction of an additional lens component. The 3L1S (3 lens components and a single source) modeling yields three sets of solutions, in which one set of solutions indicates that the lens is a planetary system in a binary, while the other two sets imply that the lens is a multiplanetary system. By investigating the fits of the individual models to the detailed light curve structure, we find that the multiple-planet solution with planet-to-host mass ratios $\sim 9.5\times 10^{-3}$ and $\sim 15\times 10^{-3}$ are favored over the other solutions. From the Bayesian analysis, we find that the lens is composed of two planets with masses $1.8^{+3..4}_{-1.1}~M_{\rm J}$ and $2.8^{+5.1}_{-1.7}~M_{\rm J}$ around a host with a mass $0.18^{+0.33}_{-0.10}~M_\odot$ and located at a distance $7.1^{+1.1}_{-1.5}~{\rm kpc}$. The estimated distance indicates that the lens is the farthest system among the known multiplanetary systems. The projected planet-host separations are $a_{\perp,2}=1.8^{+2.1}_{-1.5}~{\rm au}$ ($0.8^{+0.9}_{-0.6}~{\rm au}$) and $a_{\perp,3}=0.8^{+0.9}_{-0.6}~{\rm au}$, where the values of $a_{\perp,2}$ in and out the parenthesis are the separations corresponding to the two degenerate solutions, indicating that both planets are located beyond the snow line of the host, as with the other four multiplanetary systems previously found by microlensing.

## Full text

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## Figures

34 figures with captions in the complete paper: https://tomesphere.com/paper/1907.01741/full.md

## References

70 references — full list in the complete paper: https://tomesphere.com/paper/1907.01741/full.md

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Source: https://tomesphere.com/paper/1907.01741