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MOA-2006-BLG-074: Recognizing Xallarap Contaminants in Planetary MicrolensingMOA-2006-BLG-074 was selected as one of the most promising planetary candidates in a retrospective analysis of the MOA collaboration: its asymmetric high-magnification peak can be perfectly explained by a source passing across a central caustic deformed by a small planet. However, after a detailed analysis of the residuals, we have realized that a single lens and a source orbiting with a faint companion provides a more satisfactory explanation for all the observed deviations from a Paczynski curve and the only physically acceptable interpretation. Indeed the orbital motion of the source is constrained enough to allow a very good characterization of the binary source from the microlensing light curve. The case of MOA-2006-BLG-074 suggests that the so-called xallarap effect must be taken seriously in any attempts to obtain accurate planetary demographics from microlensing surveys.
Document ID
20220002115
Acquisition Source
Goddard Space Flight Center
Document Type
Reprint (Version printed in journal)
Authors
P. Rota (University of Salerno Fisciano, Italy)
Y. Hirao (Osaka University Osaka, Japan)
V. Bozza ORCID(University of Salerno Fisciano, Italy)
F. Abe (Nagoya University Nagoya, Japan)
R. Barry ORCID(Goddard Space Flight Center Greenbelt, United States)
D. P. Bennett ORCID(University of Maryland, College Park College Park, United States)
A. Bhattacharya (University of Maryland, College Park College Park, Maryland, United States)
I. A. Bond (Massey University Palmerston North, New Zealand)
M. Donachie (University of Auckland Auckland, New Zealand)
A. Fukui ORCID(The University of Tokyo Tokyo, Japan)
H. Fujii (Nagoya University Nagoya, Japan)
S. Ishitani Silva (Catholic University of America Washington D.C., District of Columbia, United States)
Y. Itow ORCID(Nagoya University Nagoya, Japan)
R. Kirikawa (Osaka University Osaka, Japan)
N. Koshimoto ORCID(University of Tokyo Tokyo, Japan)
M. C. A. Li (University of Auckland Auckland, New Zealand)
Y. Matsubara (Nagoya University Nagoya, Japan)
S. Miyazaki ORCID(Osaka University Osaka, Japan)
Y. Muraki ORCID(Nagoya University Nagoya, Japan)
G. Olmschenk ORCID(University of Maryland, College Park College Park, United States)
C. Ranc ORCID(Sorbonne University Paris, France)
Y. Satoh (Osaka University Osaka, Japan)
T. Sumi ORCID(Osaka University Osaka, Japan)
D. Suzuki (Osaka University Osaka, Japan)
P. J. Tristram (University of Canterbury Christchurch, New Zealand)
A. Yonehara (Kyoto Sangyo University Kyoto, Kyôto, Japan)
Date Acquired
February 7, 2022
Publication Date
July 14, 2021
Publication Information
Publication: Astronomical Journal
Publisher: American Astronomical Society
Volume: 162
Issue: 2
Issue Publication Date: August 1, 2021
ISSN: 0004-6256
e-ISSN: 1538-3881
DOI: 10.3847/1538-3881/ac0155
Subject Category
Astronomy
Astrophysics
Funding Number(s)
WBS: 399131
CONTRACT_GRANT: 80GSFC21M0002
CONTRACT_GRANT: 80HQTR21CA005
CONTRACT_GRANT: JSPS KAK-ENHI JSPS24253004
CONTRACT_GRANT: JSPS KAK-ENHI JSPS26247023
CONTRACT_GRANT: JSPS KAK-ENHI JSPS23340064
CONTRACT_GRANT: JSPS KAK-ENHI JSPS15H00781
CONTRACT_GRANT: JSPS KAK-ENHI JP16H06287
CONTRACT_GRANT: JSPS KAK-ENHI 17H02871
CONTRACT_GRANT: JSPS KAK-ENHI 19KK0082
PROJECT: COLD-WORLDS ANR-18-CE31-0002
Distribution Limits
Public
Copyright
Portions of document may include copyright protected material.
Technical Review
External Peer Committee
Keywords
Gravitational microlensing exoplanet detection
Binary stars
Binary source microlensing
Xallarap effect

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