English

Survival Function Analysis of Planet Size Distribution

Earth and Planetary Astrophysics 2018-04-16 v2

Abstract

Applying the survival function analysis to the planet radius distribution of the Kepler exoplanet candidates, we have identified two natural divisions of planet radius at 4 Earth radii and 10 Earth radii. These divisions place constraints on planet formation and interior structure model. The division at 4 Earth radii separates small exoplanets from large exoplanets above. When combined with the recently-discovered radius gap at 2 Earth radii, it supports the treatment of planets 2-4 Earth radii as a separate group, likely water worlds. Thus, for planets around solar-type FGK main-sequence stars, we argue that 2 Earth radii is the separation between water-poor and water-rich planets, and 4 Earth radii is the separation between gas-poor and gas-rich planets. We confirm that the slope of survival function in between 4 and 10 Earth radii to be shallower compared to either ends, indicating a relative paucity of planets in between 4-10 Earth radii, namely, the sub-Saturnian desert there. We name them transitional planets, as they form a bridge between the gas-poor small planets and gas giants. Accordingly, we propose the following classification scheme: (<2 Earth radii) rocky planets, (2-4 Earth radii) water worlds, (4-10 Earth radii) transitional planets, and (>10 Earth radii) gas giants.

Keywords

Cite

@article{arxiv.1801.03993,
  title  = {Survival Function Analysis of Planet Size Distribution},
  author = {Li Zeng and Stein B. Jacobsen and Dimitar D. Sasselov and Andrew Vanderburg},
  journal= {arXiv preprint arXiv:1801.03993},
  year   = {2018}
}

Comments

10 pages, 2 figures, under review with MNRAS, comments are very welcome and much appreciated!

R2 v1 2026-06-22T23:43:14.116Z