The First Neptune Analog or Super-Earth with Neptune-like Orbit: MOA-2013-BLG-605Lb

Abstract

We present the discovery of the first Neptune analog exoplanet or super-Earth with Neptune-like orbit, MOA-2013-BLG-605Lb. This planet has a mass similar to that of Neptune or a super-Earth and it orbits at 9 14 times the expected position of the snow-line, a snow, which is similar to Neptune's separation of 11\,a snow from the Sun. The planet/host-star mass ratio is q=(3.60.7)× 10-4 and the projected separation normalized by the Einstein radius is s=2.390.05. There are three degenerate physical solutions and two of these are due to a new type of degeneracy in the microlensing parallax parameters, which we designate "the wide degeneracy". The three models have (i) a Neptune-mass planet with a mass of M p=21-7+6 MEarth orbiting a low-mass M-dwarf with a mass of M h=0.19-0.06+0.05 M, (ii) a mini-Neptune with M p= 7.9-1.2+1.8 MEarth orbiting a brown dwarf host with M h=0.068-0.011+0.019 M and (iii) a super-Earth with M p= 3.2-0.3+0.5 MEarth orbiting a low-mass brown dwarf host with M h=0.025-0.004+0.005 M which is slightly favored. The 3-D planet-host separations are 4.6-1.2+4.7 AU, 2.1-0.2+1.0 AU and 0.94-0.02+0.67 AU, which are 8.9-1.4+10.5, 12-1+7 or 14-1+11 times larger than a snow for these models, respectively. The Keck AO observation confirm that the lens is faint. This discovery suggests that low-mass planets with Neptune-like orbit are common. So processes similar to the one that formed Neptune in our own Solar System or cold super-Earth may be common in other solar systems.