A Wide Orbit Exoplanet OGLE-2012-BLG-0838Lb

Authors :: R., Poleski
D., Suzuki
A., Udalski
X., Xie
C., Yee J.
N., Koshimoto
S., Gaudi B.
A., Gould
J., Skowron
K., Szymanski M.
I., Soszynski
P., Pietrukowicz
S., Kozlowski
L., Wyrzykowski
K., Ulaczyk
F., Abe
K., Barry R.
P., Bennett D.
A., Bhattacharya
A., Bond I.
M., Donachie
H., Fujii
A., Fukui
Y., Itow
Y., Hirao
Y., Kamei
I., Kondo
A., Li M. C.
Y., Matsubara
S., Miyazaki
Y., Muraki
M., Nagakane
C., Ranc
J., Rattenbury N.
K., Satoh Y.
H., Shoji
H., Suematsu
J., Sullivan D.
T., Sumi
J., Tristram P.
T., Yamakawa
T., Yamawaki
A., Yonehara
C., Han
S., Dong
M., Morzinski K.
R., Males J.
M., Close L.
W., Pogge R.
-P., Beaulieu J.
-B, Marquette J.
Source :: Astronomical Journal, Volume 159, Issue 6, id.261, 16 pp. (2020)
Publication Year :: 2019
Abstract: We present the discovery of a planet on a very wide orbit in the microlensing event OGLE-2012-BLG-0838. The signal of the planet is well separated from the main peak of the event and the planet-star projected separation is found to be twice larger than the Einstein ring radius, which roughly corresponds to a projected separation of ~4 AU. Similar planets around low-mass stars are very hard to find using any technique other than microlensing. We discuss microlensing model fitting in detail and discuss the prospects for measuring the mass and distance of lens system directly.<br />Comment: 26 pages, 11 figures

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