Tuesday, November 12, 2013

Eight New Planets Emerge From Kepler Data in Four Star Systems

EIGHT PLANETS IN FOUR MULTI-PLANET SYSTEMS VIA TRANSIT TIMING VARIATIONS IN 1350 DAYS

Authors:

Yang Ming, Liu Hui-Gen, Zhang Hui, Yang Jia-Yi, and Zhou Ji-Lin

Abstract:

Analysis of the transit timing variations (TTVs) of candidate pairs near mean-motion resonances (MMRs) is an effective method to confirm planets. Hitherto, 68 planets in 34 multi-planet systems have been confirmed via TTVs. We analyze the TTVs of all candidates from the most recent Kepler data with a time span of upto about 1350 days (Q0-Q15). The anti-correlations of TTV signals and the mass upper limits of candidate pairs in the same system are calculated using an improved method suitable for long-period TTVs. If the false alarm probability of a candidate pair is less than 10–3 and the mass upper limit for each candidate is less than 13 M J, we confirm them as planets in the same system. Finally, eight planets in four multi-planet systems are confirmed via analysis of their TTVs. All of the four planet pairs are near first-order MMRs, including KOI-2672 near 2:1 MMR and KOI-1236, KOI-1563, and KOI-2038 near 3:2 MMR. Four planets have relatively long orbital periods (less than 35 days). KOI-2672.01 has an orbital period of 88.51658 days and a fit mass of 17 M ⊕. To date, it is the longest-period planet confirmed near a first-order MMR via TTVs.

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