TTV-determined Masses for Warm Jupiters and their Close Planetary Companions

Abstract

Although the formation and the properties of hot Jupiters (with orbital periods P<10\,d) have attracted a great deal of attention, the origins of warm Jupiters (10<P<100\,d) are less well-studied. Using a transit timing analysis, we present the orbital parameters of five planetary systems containing warm Jupiters, Kepler 30, Kepler 117, Kepler 302, Kepler 487 and Kepler 418. Three of them, Kepler-30 c(Mp=549.45.6M), Kepler-117 c(Mp=70263M) and Kepler 302 c(Mp=933 527M), are confirmed to be real warm Jupiters based on their mass. Insights drawn from the radius-temperature relationship lead to the inference that hot Jupiters and warm Jupiters can be roughly separated by T eff,c =1123.73.3 K. Also, T eff,c provides a good separation for Jupiters with companion fraction consistent with zero(T eff>T eff,c) and those with companion fraction significantly different from zero (T eff<T eff,c).