Precision measurement of a brown dwarf mass in a binary system in the microlensing event

Herald, A.; Udalski, A.; Bozza, V.; Rota, Paolo; Bond, I. A.; Yee, Jennifer C.; Sajadian, Sedighe; Mróz, P.; Poleski, R.; Skowron, J.; Szymański, M. K.; Soszyński, I.; Pietrukowicz, P.; Kozłowski, S.; Ulaczyk, K.; Rybicki, K.; Iwanek, P.; Wrona, Marcin; Gromadzki, M.; Abe, F.; Barry, Richard; Bennett, D. P.; Bhattacharya, Atri; Fukui, A.; Fujii, Hirosane; Hirao, Yuki; Itow, Y.; Kirikawa, Rintaro; Kondo, Iona; Koshimoto, Naoki; Matsubara, Y.; Matsumoto, Sh.; Miyazaki, Sh.; Muraki, Y.; Olmschenk, Greg; Ranc, Clément; Okamura, Arisa; Rattenbury, N. J.; Satoh, Yuki; Sumi, T.; Suzuki, D.; Silva, S. Ishitani; Toda, Taiga; Tristram, P. J.; Vandorou, Aikaterini; Yama, Hibiki; Beichman, C.; Bryden, Geoffery; Novati, S. Calchi; Carey, Sean; Gaudi, B. Scott; Gould, Andrew; Henderson, Calen B.; Johnson, Samson A.; Shvartzvald, Yossi; Zhu, Wei; Dominik, M.; Hundertmark, M.; Jørgensen, U. G.; Longa-Peña, Penélope; Skottfelt, J.; Tregloan-Reed, J.; Bach-Møller, Nanna; Burgdorf, M.; D’Ago, G.; Haikala, L. K.; Hitchcock, J. A.; Khalouei, Elahe; Peixinho, N.; Rahvar, S.; Snodgrass, C.; Southworth, J.; Spyratos, Petros; Zang, Weicheng; Yang, Hongjing; Mao, S.; Christie, Grant; Cooper, Tony; Almeida, Leandro de; Nascimento, J. D. Do; Green, J.; Han, C.; Hennerley, Steve; Marmont, Andrew; McCormick, J.; Monard, L. A. G.; Natusch, T.; Pogge, R. W.

doi:10.1051/0004-6361/202243490

A&A

2022

DOI: 10.1051/0004-6361/202243490

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Precision measurement of a brown dwarf mass in a binary system in the microlensing event

A. Herald¹,

A. Udalski²,

V. Bozza³

et al.

Abstract: Context. Brown dwarfs are transition objects between stars and planets that are still poorly understood, for which several competing mechanisms have been proposed to describe their formation. Mass measurements are generally difficult to carry out for isolated objects as well as for brown dwarfs orbiting low-mass stars, which are often too faint for a spectroscopic follow-up. Aims. Microlensing provides an alternative tool for the discovery and investigation of such faint systems. Here, we present an analysis o… Show more

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Cited by 5 publications

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Brown dwarf companions in microlensing binaries detected during the 2016–2018 seasons

Han

Ryu

Shin

et al. 2022

A&A

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Aims. With the aim of finding microlensing binaries containing brown dwarf (BD) companions, we investigate the microlensing survey data collected during the 2016-2018 seasons. Methods. For this purpose, we first modeled lensing events with light curves exhibiting anomaly features that are likely to be produced by binary lenses. We then sorted out BD companion binary-lens events by applying the criterion that the companion-to-primary mass ratio is q 0.1. With this procedure, we identify six binaries with candidate BD companions: OGLE

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Brown dwarf companions in microlensing binaries detected during the 2016–2018 seasons

Han

Ryu

Shin

et al. 2022

A&A

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Gaia21blx: Complete resolution of a binary microlensing event in the Galactic disk

Rota,

Bozza,

Hundertmark

et al. 2024

A&A

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Gravitational microlensing is a method that is used to discover planet-hosting systems at distances of several kiloparsec in the Galactic disk and bulge. We present the analysis of a microlensing event reported by the Gaia photometric alert team that might have a bright lens. In order to infer the mass and distance to the lensing system, the parallax measurement at the position of Gaia21blx was used. In this particular case, the source and the lens have comparable magnitudes and we cannot attribute the parallax measured by Gaia to the lens or source alone. Since the blending flux is important, we assumed that the Gaia parallax is the flux-weighted average of the parallaxes of the lens and source. Combining this assumption with the information from the microlensing models and the finite source effects we were able to resolve all degeneracies and thus obtained the mass, distance, luminosities and projected kinematics of the binary lens and the source. According to the best model, the lens is a binary system at $2.18 0.07$ kpc from Earth. It is composed of a G star with $0.95 odot $ and a K star with $0.53 odot $. The source is likely to be an F subgiant star at $2.38 1.71$ kpc with a mass of $1.10 odot $. Both lenses and the source follow the kinematics of the thin-disk population. We also discuss alternative models, that are disfavored by the data or by prior expectations, however.

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RTModel: A platform for real-time modeling and massive analyses of microlensing events

Bozza

2024

A&A

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The microlensing of stars in our Galaxy has long been used to detect and characterize stellar populations, exoplanets, brown dwarfs, stellar remnants, and all other objects that may magnify the source stars with their gravitational fields. The interpretation of microlensing light curves is relatively simple for single lenses and single sources, but it becomes more and more complicated when we add more objects and take their relative motions into account. RTModel is a modeling platform that has been very active in the real-time investigations of microlensing events, providing preliminary models that have proven very useful for driving follow-up resources towards the most interesting events. The success of RTModel comes from its ability to carry out a thorough and focused exploration of the parameter space in a relatively short time. This modeling process is based on three key ideas. First, the initial conditions are chosen from a template library including all possible caustic crossing and approaches. The fits are then made using the Levenberg-Marquardt algorithm with the addition of a bumper mechanism to explore multiple minima. Finally, the basic computations of microlensing magnification are performed by the fast and robust VBBinaryLensing package. In this paper, we illustrate all the algorithms of RTModel in detail with the intention to foster new approaches in view of future microlensing pipelines aimed at massive microlensing analyses.

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Precision measurement of a brown dwarf mass in a binary system in the microlensing event

Cited by 5 publications

References 105 publications

Brown dwarf companions in microlensing binaries detected during the 2016–2018 seasons

Brown dwarf companions in microlensing binaries detected during the 2016–2018 seasons

Gaia21blx: Complete resolution of a binary microlensing event in the Galactic disk

RTModel: A platform for real-time modeling and massive analyses of microlensing events

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