Weicheng Zang, Tsinghua University
Cheongho Han, Chungbuk National University
Iona Kondo, Osaka University
Jennifer C. Yee, Harvard-Smithsonian Center for Astrophysics
Chung Uk Lee, Korea Astronomy and Space Science Institute
Andrew Gould, Max Planck Institute for Astronomy
Shude Mao, Tsinghua University
Leandro de Almeida, Universidade Federal do Rio Grande do Norte
Yossi Shvartzvald, Weizmann Institute of Science Israel
Xiangyu Zhang, Tsinghua University
Michael D. Albrow, University of Canterbury
Sun Ju Chung, Korea Astronomy and Space Science Institute
Kyu Ha Hwang, Korea Astronomy and Space Science Institute
Youn Kil Jung, Korea Astronomy and Space Science Institute
Yoon Hyun Ryu, Korea Astronomy and Space Science Institute
In Gu Shin, Korea Astronomy and Space Science Institute
Sang Mok Cha, Korea Astronomy and Space Science Institute
Dong Jin Kim, Korea Astronomy and Space Science Institute
Hyoun Woo Kim, Korea Astronomy and Space Science Institute
Seung Lee Kim, Korea Astronomy and Space Science Institute
Dong Joo Lee, Korea Astronomy and Space Science Institute
Yongseok Lee, Korea Astronomy and Space Science Institute
Byeong Gon Park, Korea Astronomy and Space Science Institute
Richard W. Pogge, The Ohio State University
John Drummond, Possum Observatory
Thiam Guan Tan, Perth Exoplanet Survey Telescope
José Dias do Nascimento, Harvard-Smithsonian Center for Astrophysics
Dan Maoz, Tel Aviv University
Matthew T. Penny, Louisiana State University
Wei Zhu, Tsinghua University
Ian A. Bond, Massey University Auckland
Fumio Abe, Nagoya University
Richard Barry, NASA Goddard Space Flight Center

Document Type

Article

Publication Date

9-1-2021

Abstract

We report the discovery of KMT-2020-BLG-0414Lb, with a planet-to-host mass ratio q2 = 0:9- 1:2 × 10-5 = 3-4 q⊕ at 1σ, which is the lowest mass-ratio microlensing planet to date. Together with two other recent discoveries (4. q=q⊕. 6), it fills out the previous empty sector at the bottom of the triangular (log s; log q) diagram, where s is the planet-host separation in units of the angular Einstein radius θE. Hence, these discoveries call into question the existence, or at least the strength, of the break in the mass-ratio function that was previously suggested to account for the paucity of very low-q planets. Due to the extreme magnification of the event, Amax ∼ 1450 for the underlying single-lens event, its light curve revealed a second companion with q3 ∼ 0:05 and j log s3j ∼ 1, i.e., a factor ∼ 10 closer to or farther from the host in projection. The measurements of the microlens parallax ∼E and the angular Einstein radius ∼E allow estimates of the host, planet and second companion masses, (M1;M2;M3) ∼ (0:3M⊙; 1:0M⊙; 17MJ ), the planet and second companion projected separations, (a⊥;2; a⊥;3) ∼ (1:5; 0:15 or 15) au, and system distance DL ∼ 1 kpc. The lens could account for most or all of the blended light (I ∼ 19:3) and so can be studied immediately with high-resolution photometric and spectroscopic observations that can further clarify the nature of the system. The planet was found as part of a new program of high-cadence follow-up observations of high-magnification events. The detection of this planet, despite the considerable difficulties imposed by COVID-19 (two KMT sites and OGLE were shut down), illustrates the potential utility of this program.

Publication Source (Journal or Book title)

Research in Astronomy and Astrophysics

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