Single-lens mass measurement in the high-magnification microlensing event Gaia19bld located in the Galactic disc
- Creators
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Rybicki, K. A.
- Wyrzykowski, Ł.
- Bachelet, E.
- Cassan, A.
- Zieliński, P.
- Gould, A.
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Calchi Novati, S.
- Yee, J. C.
- Ryu, Y.-H.
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Gromadzki, M.
- Mikołajczak, M.
- Ihanec, N.
- Kruszyńska, K.
- Hambsch, F.-J.
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Zola, S.
- Fossey, S. J.
- Awiphan, S.
- Nakharutai, N.
- Lewis, F.
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Olivares E., F.
- Hodgkin, S.
- Delgado, A.
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Breedt, E.
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Harrison, D. L.
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van Leeuwen, M.
- Rixon, G.
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Wevers, T.
- Yoldas, A.
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Udalski, A.
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Szymański, M. K.
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Soszyński, I.
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Pietrukowicz, P.
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Kozlowski, S.
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Skowron, J.
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Poleski, R.
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Ulaczyk, K.
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Mróz, P.
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Iwanek, P.
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Wrona, M.
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Street, R. A.
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Tsapras, Y.
- Hundertmark, M.
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Dominik, M.
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Beichman, C. A.
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Bryden, G.
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Carey, S.
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Gaudi, B. S.
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Henderson, C.
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Shvartzvald, Y.
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Zang, W.
- Zhu, W.
- Christie, G. W.
- Green, J.
- Hennerley, S.
- McCormick, J.
- Monard, L. A. G.
- Natusch, T.
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Pogge, R. W.
- Gezer, I.
- Gurgul, A.
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Kaczmarek, Z.
- Konacki, M.
- Lam, M. C.
- Maskoliunas, M.
- Pakstiene, E.
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Ratajczak, M.
- Stankeviciute, A.
- Zdanavicius, J.
- Ziółkowska, O.
Abstract
Context. Microlensing provides a unique opportunity to detect non-luminous objects. In the rare cases that the Einstein radius θ_E and microlensing parallax π_E can be measured, it is possible to determine the mass of the lens. With technological advances in both ground- and space-based observatories, astrometric and interferometric measurements are becoming viable, which can lead to the more routine determination of θ_E and, if the microlensing parallax is also measured, the mass of the lens. Aims. We present the photometric analysis of Gaia19bld, a high-magnification (A ≈ 60) microlensing event located in the southern Galactic plane, which exhibited finite source and microlensing parallax effects. Due to a prompt detection by the Gaia satellite and the very high brightness of I = 9.05 mag at the peak, it was possible to collect a complete and unique set of multi-channel follow-up observations, which allowed us to determine all parameters vital for the characterisation of the lens and the source in the microlensing event. Methods. Gaia19bld was discovered by the Gaia satellite and was subsequently intensively followed up with a network of ground-based observatories and the Spitzer Space Telescope. We collected multiple high-resolution spectra with Very Large Telescope (VLT)/X-shooter to characterise the source star. The event was also observed with VLT Interferometer (VLTI)/PIONIER during the peak. Here we focus on the photometric observations and model the light curve composed of data from Gaia, Spitzer, and multiple optical, ground-based observatories. We find the best-fitting solution with parallax and finite source effects. We derived the limit on the luminosity of the lens based on the blended light model and spectroscopic distance. Results. We compute the mass of the lens to be 1.13 ± 0.03 M_⊙ and derive its distance to be 5.52_(−0.64)^(+0.35) kpc. The lens is likely a main sequence star, however its true nature has yet to be verified by future high-resolution observations. Our results are consistent with interferometric measurements of the angular Einstein radius, emphasising that interferometry can be a new channel for determining the masses of objects that would otherwise remain undetectable, including stellar-mass black holes.
Additional Information
© ESO 2021. Received: 28 September 2020 Accepted: 20 July 2021. The authors would like to thank the referee for their comments, which helped improving the quality of the paper. This work was supported from the Polish NCN grants: Preludium No. 2017/25/N/ST9/01253, Harmonia No. 2018/30/M/ST9/00311, MNiSW grant DIR/WK/2018/12, Daina No. 2017/27/L/ST9/03221, and by the Research Council of Lithuania, grant No. S-LL-19-2. The OGLE project has received funding from the NCN grant MAESTRO 2014/14/A/ST9/00121 to AU. We acknowledge the European Commission's H2020 OPTICON grant No. 730890. YT acknowledges the support of DFG priority program SPP 1992 "Exploring the Diversity of Extrasolar Planets" (WA 1047/11-1). EB and RS gratefully acknowledge support from NASA grant 80NSSC19K0291. Work by AG was supported by JPL grant 1500811. Work by JCY was supported by JPL grant 1571564. SJF thanks Telescope Live for access to their telescope network. NN acknowledges the support of Data Science Research Center, Chiang Mai University. FOE acknowledges the support from the FONDECYT grant nr. 1201223. MK acknowledges the support from the NCN grant No. 2017/27/B/ST9/02727.Attached Files
Published - aa39542-20.pdf
Accepted Version - 2112.01613.pdf
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Additional details
- Eprint ID
- 112611
- Resolver ID
- CaltechAUTHORS:20211221-473340000
- 2017/25/N/ST9/01253
- National Science Centre (Poland)
- 2018/30/M/ST9/00311
- National Science Centre (Poland)
- DIR/WK/2018/12
- Ministerstwo Nauki i Szkolnictwa Wyższego (MNiSW)
- 2017/27/L/ST9/03221
- National Science Centre (Poland)
- S-LL-19-2
- Research Council of Lithuania
- 2014/14/A/ST9/00121
- National Science Centre (Poland)
- 730890
- European Research Council (ERC)
- WA 1047/11-1
- Deutsche Forschungsgemeinschaft (DFG)
- 80NSSC19K0291
- NASA
- 1500811
- JPL
- 1571564
- JPL
- Chiang Mai University
- 1201223
- Fondo Nacional de Desarrollo Científico y Tecnológico (FONDECYT)
- 2017/27/B/ST9/02727
- National Science Centre (Poland)
- Created
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2021-12-21Created from EPrint's datestamp field
- Updated
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2022-08-08Created from EPrint's last_modified field
- Caltech groups
- Infrared Processing and Analysis Center (IPAC)