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Koshimoto, Naoki and Sumi, Takahiro and Bennett, David P. and Bozza, Valerio and Mróz, Przemek and Udalski, Andrzej and Rattenbury, Nicholas J. and Abe, Fumio and Barry, Richard and Bhattacharya, Aparna and Bond, Ian A. and Fujii, Hirosane and Fukui, Akihiko and Hamada, Ryusei and Hirao, Yuki and Silva, Stela Ishitani and Itow, Yoshitaka and Kirikawa, Rintaro and Kondo, Iona and Matsubara, Yutaka and Miyazaki, Shota and Muraki, Yasushi and Olmschenk, Greg and Ranc, Clément and Satoh, Yuki and Suzuki, Daisuke and Tomoyoshi, Mio and Tristram, Paul J. and Vandorou, Aikaterini and Yama, Hibiki and Yamashita, Kansuke (2023) Terrestrial- and Neptune-mass Free-Floating Planet Candidates from the MOA-II 9 yr Galactic Bulge Survey. The Astronomical Journal, 166 (3). p. 107. ISSN 0004-6256

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Abstract

We report the discoveries of low-mass free-floating planet (FFP) candidates from the analysis of 2006–2014 MOA-II Galactic bulge survey data. In this data set, we found 6111 microlensing candidates and identified a statistical sample consisting of 3535 high-quality single-lens events with Einstein radius crossing times in the range 0.057 < tE/days < 757, including 13 events that show clear finite-source effects with angular Einstein radii of 0.90 < θE/μas < 332.54. Two of the 12 events with tE < 1 day have significant finite-source effects, and one event, MOA-9y-5919, with tE = 0.057 ± 0.016 days and θE = 0.90 ± 0.14 μas, is the second terrestrial-mass FFP candidate to date. A Bayesian analysis indicates a lens mass of ${0.75}_{-0.46}^{+1.23}$M⊕ for this event. The low detection efficiency for short-duration events implies a large population of low-mass FFPs. The microlensing detection efficiency for low-mass planet events depends on both the Einstein radius crossing times and the angular Einstein radii, so we have used image-level simulations to determine the detection efficiency dependence on both tE and θE. This allows us to use a Galactic model to simulate the tE and θE distribution of events produced by the known stellar populations and models of the FFP distribution that are fit to the data. Methods like this will be needed for the more precise FFP demographics determinations from Nancy Grace Roman Space Telescope data.

Item Type: Article
Subjects: GO for ARCHIVE > Physics and Astronomy
Depositing User: Unnamed user with email support@goforarchive.com
Date Deposited: 11 Nov 2023 05:43
Last Modified: 11 Nov 2023 05:43
URI: http://eprints.go4mailburst.com/id/eprint/1731

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