California-Kepler Survey (CKS). III. Planet radii

DOI

The size of a planet is an observable property directly connected to the physics of its formation and evolution. We used precise radius measurements from the California-Kepler Survey to study the size distribution of 2025 Kepler planets in fine detail. We detect a factor of >=2 deficit in the occurrence rate distribution at 1.5-2.0R_{Earth}. This gap splits the population of close-in (P<100days) small planets into two size regimes: R_P<1.5R_{Earth} and R_P=2.0--3.0R_{Earth}, with few planets in between. Planets in these two regimes have nearly the same intrinsic frequency based on occurrence measurements that account for planet detection efficiencies. The paucity of planets between 1.5 and 2.0R{Earth} supports the emerging picture that close-in planets smaller than Neptune are composed of rocky cores measuring 1.5R{Earth}_ or smaller with varying amounts of low-density gas that determine their total sizes.

Cone search capability for table J/AJ/154/109/table2 (*Planet detection statistics)

Identifier
DOI http://doi.org/10.26093/cds/vizier.51540109
Source https://dc.g-vo.org/rr/q/lp/custom/CDS.VizieR/J/AJ/154/109
Related Identifier https://cdsarc.cds.unistra.fr/viz-bin/cat/J/AJ/154/109
Related Identifier https://vizier.cds.unistra.fr/viz-bin/VizieR-2?-source=J/AJ/154/109
Metadata Access http://dc.g-vo.org/rr/q/pmh/pubreg.xml?verb=GetRecord&metadataPrefix=oai_b2find&identifier=ivo://CDS.VizieR/J/AJ/154/109
Provenance
Creator Fulton B.J.; Petigura E.A.; Howard A.W.; Isaacson H.; Marcy G.W.,Cargile P.A.; Hebb L.; Weiss L.M.; Johnson J.A.; Morton T.D.; Sinukoff E.,Crossfield I.J.M.; Hirsch L.A.
Publisher CDS
Publication Year 2017
Rights https://cds.unistra.fr/vizier-org/licences_vizier.html
OpenAccess true
Contact CDS support team <cds-question(at)unistra.fr>
Representation
Resource Type Dataset; AstroObjects
Discipline Astrophysics and Astronomy; Natural Sciences; Physics; Solar System Astronomy