Five New Exoplanets Orbiting Three Metal-Rich, Massive Stars: Two-Planet Systems Including Long-Period Planets, and an Eccentric Planet

Abstract

We report detections of new exoplanets from a radial velocity (RV) survey of metal-rich FGK stars by using three telescopes. By optimizing our RV analysis method to long time-baseline observations, we have succeeded in detecting five new Jovian-planets around three metal-rich stars HD 1605, HD 1666, and HD 67087 with the masses of 1.3 M, 1.5 M, and 1.4 M, respectively. A K1 subgiant star HD 1605 hosts two planetary companions with the minimum masses of Mp i = 0.96 MJUP and 3.5 MJUP in circular orbits with the planets' periods P = 577.9 days and 2111 days, respectively. HD 1605 shows a significant linear trend in RVs. Such a system consisting of Jovian planets in circular orbits has rarely been found and thus HD 1605 should be an important example of a multi-planetary system that is likely unperturbed by planet-planet interactions. HD 1666 is a F7 main sequence star which hosts an eccentric and massive planet of Mp i = 6.4 MJUP in the orbit with a p = 0.94 AU and an eccentricity e=0.63. Such an eccentric and massive planet can be explained as a result of planet-planet interactions among Jovian planets. While we have found the large residuals of rms = 35.6\ m\ s-1, the periodogram analysis does not support any additional periodicities. Finally, HD 67087 hosts two planets of Mp i = 3.1 MJUP and 4.9 MJUP in orbits with P=352.2 days and 2374 days, and e=0.17 and 0.76, respectively. Although the current RVs do not lead to accurate determinations of its orbit and mass, HD 67087 c can be one of the most eccentric planets ever discovered in multiple systems.