Options
Four microlensing giant planets detected through signals produced by minor-image perturbations
Han, Cheongho
Bond, Ian
Lee, Chung-Uk
Gould, Andrew
Albrow, Michael
Chung, Sun-Ju
Hwang, Kyu-Ha
Jung, Youn
Ryu, Yoon-Hyun
Shvartzvald, Yossi
Shin, In-Gu
Yee, Jennifer
Yang, Hongjing
Zang, Weicheng
Cha, Sang-Mok
Kim, Doeon
Kim, Dong-Jin
Kim, Seung-Lee
Lee, Dong-Joo
Lee, Yongseok
Park, Byeong-Gon
Pogge, Richard W.
Abe, Fumio
Bando, Ken
Barry, Richard
Bennett, David
Bhattacharya, Aparna
Fujii, Hirosame
Fukui, Akihiko
Hamada, Ryusei
Hamada, Shunya
Hamasaki, Naoto
Hirao, Yuki
Ishitani Silva, Stela
Itow, Yoshitaka
Kirikawa, Rintaro
Koshimoto, Naoki
Matsubara, Yutaka
Miyazaki, Shota
Muraki, Yasushi
Nagai, Tutumi
Nunota, Kansuke
Olmschenk, Greg
Ranc, Clément
Rattenbury, Nicholas
Satoh, Yuki
Sumi, Takahiro
Suzuki, Daisuke
Tomoyoshi, Mio
Tristram, Paul
Vandorou, Aikaterini
Yama, Hibiki
Yamashita, Kansuke
Bachelet, Etienne
Rota, Paolo
Bozza, Valerio
Zielinski, Paweł
Street, Rachel
Tsapras, Yiannis
Hundertmark, Markus
Wambsganss, Joachim
Wyrzykowski, Łukasz
Figuera Jaimes, Roberto
Cassan, Arnaud
Dominik, Martin
Rybicki, Krzysztof
EDP Sciences
2024
Aims. We investigated the nature of the anomalies appearing in four microlensing events KMT-2020-BLG-0757, KMT-2022-BLG-0732, KMT-2022-BLG-1787, and KMT-2022-BLG-1852. The light curves of these events commonly exhibit initial bumps followed by subsequent troughs that extend across a substantial portion of the light curves.
Methods. We performed thorough modeling of the anomalies to elucidate their characteristics. Despite their prolonged durations, which differ from the usual brief anomalies observed in typical planetary events, our analysis revealed that each anomaly in these events originated from a planetary companion located within the Einstein ring of the primary star. It was found that the initial bump arouse when the source star crossed one of the planetary caustics, while the subsequent trough feature occurred as the source traversed the region of minor image perturbations lying between the pair of planetary caustics.
Results. The estimated masses of the host and planet, their mass ratios, and the distance to the discovered planetary systems are (Mhost/M⊙, Mplanet/MJ, q/10−3, DL/kpc) = (0.58−0.30+0.33, 10.71−5.61+6.17, 17.61 ± 2.25, 6.67−1.30+0.93) for KMT-2020-BLG-0757, (0.53−0.31+0.31, 1.12−0.65+0.65, 2.01 ± 0.07, 6.66−1.84+1.19) for KMT-2022-BLG-0732, (0.42−0.23+0.32, 6.64−3.64+4.98, 15.07 ± 0.86, 7.55−1.30+0.89) for KMT-2022-BLG-1787, and (0.32−0.19+0.34, 4.98−2.94+5.42, 8.74 ± 0.49, 6.27−1.15+0.90) for KMT-2022-BLG-1852. These parameters indicate that all the planets are giants with masses exceeding the mass of Jupiter in our solar system and the hosts are low-mass stars with masses substantially less massive than the Sun.
Methods. We performed thorough modeling of the anomalies to elucidate their characteristics. Despite their prolonged durations, which differ from the usual brief anomalies observed in typical planetary events, our analysis revealed that each anomaly in these events originated from a planetary companion located within the Einstein ring of the primary star. It was found that the initial bump arouse when the source star crossed one of the planetary caustics, while the subsequent trough feature occurred as the source traversed the region of minor image perturbations lying between the pair of planetary caustics.
Results. The estimated masses of the host and planet, their mass ratios, and the distance to the discovered planetary systems are (Mhost/M⊙, Mplanet/MJ, q/10−3, DL/kpc) = (0.58−0.30+0.33, 10.71−5.61+6.17, 17.61 ± 2.25, 6.67−1.30+0.93) for KMT-2020-BLG-0757, (0.53−0.31+0.31, 1.12−0.65+0.65, 2.01 ± 0.07, 6.66−1.84+1.19) for KMT-2022-BLG-0732, (0.42−0.23+0.32, 6.64−3.64+4.98, 15.07 ± 0.86, 7.55−1.30+0.89) for KMT-2022-BLG-1787, and (0.32−0.19+0.34, 4.98−2.94+5.42, 8.74 ± 0.49, 6.27−1.15+0.90) for KMT-2022-BLG-1852. These parameters indicate that all the planets are giants with masses exceeding the mass of Jupiter in our solar system and the hosts are low-mass stars with masses substantially less massive than the Sun.
Name
Four microlensing giant planets detected through signals produced by minor-image perturbations.pdf
Size
2.13 MB
Format
Checksum
micro
general