TY - JOUR
T1 - Marvels-1
T2 - A face-on double-lined binary star masquerading as a resonant planetary system and consideration of rare false positives in radial velocity planet searches
AU - Wright, Jason T.
AU - Roy, Arpita
AU - Mahadevan, Suvrath
AU - Wang, Sharon X.
AU - Ford, Eric B.
AU - Payne, Matt
AU - Lee, Brian L.
AU - Wang, Ji
AU - Crepp, Justin R.
AU - Gaudi, B. Scott
AU - Eastman, Jason
AU - Pepper, Joshua
AU - Ge, Jian
AU - Fleming, Scott W.
AU - Ghezzi, Luan
AU - González-Hernández, Jonay I.
AU - Cargile, Phillip
AU - Stassun, Keivan G.
AU - Wisniewski, John
AU - Dutra-Ferreira, Leticia
AU - De Mello, Gustavo F.Porto
AU - Maia, Márcio A.G.
AU - Da Costa, Luiz Nicolaci
AU - Ogando, Ricardo L.C.
AU - Santiago, Basilio X.
AU - Schneider, Donald P.
AU - Hearty, Fred R.
PY - 2013/6/20
Y1 - 2013/6/20
N2 - We have analyzed new and previously published radial velocity (RV) observations of MARVELS-1, known to have an ostensibly substellar companion in a ∼6 day orbit. We find significant (∼100 m s-1) residuals to the best-fit model for the companion, and these residuals are naïvely consistent with an interior giant planet with a P = 1.965 days in a nearly perfect 3:1 period commensurability (|Pb /Pc-3| < 10-4). We have performed several tests for the reality of such a companion, including a dynamical analysis, a search for photometric variability, and a hunt for contaminating stellar spectra. We find many reasons to be critical of a planetary interpretation, including the fact that most of the three-body dynamical solutions are unstable. We find no evidence for transits, and no evidence of stellar photometric variability. We have discovered two apparent companions to MARVELS-1 with adaptive optics imaging at Keck; both are M dwarfs, one is likely bound, and the other is likely a foreground object. We explore false-alarm scenarios inspired by various curiosities in the data. Ultimately, a line profile and bisector analysis lead us to conclude that the ∼100 m s-1 residuals are an artifact of spectral contamination from a stellar companion contributing ∼15%-30% of the optical light in the system. We conclude that origin of this contamination is the previously detected RV companion to MARVELS-1, which is not, as previously reported, a brown dwarf, but in fact a G dwarf in a face-on orbit.
AB - We have analyzed new and previously published radial velocity (RV) observations of MARVELS-1, known to have an ostensibly substellar companion in a ∼6 day orbit. We find significant (∼100 m s-1) residuals to the best-fit model for the companion, and these residuals are naïvely consistent with an interior giant planet with a P = 1.965 days in a nearly perfect 3:1 period commensurability (|Pb /Pc-3| < 10-4). We have performed several tests for the reality of such a companion, including a dynamical analysis, a search for photometric variability, and a hunt for contaminating stellar spectra. We find many reasons to be critical of a planetary interpretation, including the fact that most of the three-body dynamical solutions are unstable. We find no evidence for transits, and no evidence of stellar photometric variability. We have discovered two apparent companions to MARVELS-1 with adaptive optics imaging at Keck; both are M dwarfs, one is likely bound, and the other is likely a foreground object. We explore false-alarm scenarios inspired by various curiosities in the data. Ultimately, a line profile and bisector analysis lead us to conclude that the ∼100 m s-1 residuals are an artifact of spectral contamination from a stellar companion contributing ∼15%-30% of the optical light in the system. We conclude that origin of this contamination is the previously detected RV companion to MARVELS-1, which is not, as previously reported, a brown dwarf, but in fact a G dwarf in a face-on orbit.
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U2 - 10.1088/0004-637X/770/2/119
DO - 10.1088/0004-637X/770/2/119
M3 - Article
AN - SCOPUS:84878786161
SN - 0004-637X
VL - 770
JO - Astrophysical Journal
JF - Astrophysical Journal
IS - 2
M1 - 119
ER -