Planet Kepler-36 b

Name Kepler-36 b
Planet Status Confirmed
Discovered in 2012
Mass 0.0140326589686 ( -0.00094390082749 +0.00094390082749 ) MJ
Mass*sin(i)
Semi-Major Axis 0.1153 (± 0.0015) AU
Orbital Period 13.83989 ( -0.006 +0.0082 ) day
Eccentricity
ω
Tperi
Radius 0.132036991769 ( -0.00267642550883 +0.00267642550883 ) RJ
Inclination
Update 2013-11-05
Detection Method Primary Transit
Mass Detection Method
Radius Detection Method
Primary transit 2454960.9753 (± 0.0058) JD
Secondary transit
λ
Impact Parameter b
Time Vr=0
Velocity Semiamplitude K
Calculated temperature
Measured temperature
Hottest point longitude
Geometric albedo
Surface gravity log(g/gH)
Alternate Names

Star

Kepler-36
Name Kepler-36
Distance
Spectral type
Apparent magnitude V 12.0
Mass 1.113 (± 0.035) MSun +
Age 6.923 (± 0.372) Gyr +
Effective temperature 5900.0 (± 41.0) K +
Radius 1.66 (± 0.019) RSun +
Metallicity [Fe/H]
Detected Disc
Magnetic Field
RA2000 19:25:00.0
Dec2000 +49:13:55
Alternate Names
Planetary system
2 planets

Remarks

Alias KOI-277
Alias 2MASS 19250004+4913545

More data


Related publications

Hidden Planetary Friends: On the Stability Of 2-Planet Systems in the Presence of a Distant, Inclined Companion
2018 DENHAM P., NAOZ S., HOANG B.-M., STEPHAN A. & FARR W.
MNRAS, in press
paper  arxiv  

A HARDCORE model for constraining an exoplanet’s core size
2018 SUISSA G., CHEN J. & KIPPING D.
MNRAS, 476, 2613
paper  arxiv  

The Reversibility Error Method (REM): a new, dynamical fast indicator for planetary dynamics
2017 PANICHI F., GOZDZIEWSKI K. & TURCHETTI G.
MNRAS, 468, 469
paper   arxiv   ADS

Stealing the Gas: Giant Impacts and the Large Diversity in Exoplanet Densities
2016 INAMDAR N. & SCHLICHTING H.
Apj Letters, 817, L13
paper   arxiv   ADS  

Scaling the Earth: A Sensitivity Analysis of Terrestrial Exoplanetary Interior Models
2016 UNTERBORN C., DISMUKES E. & PANERO W.
ApJ, 819, 32
paper  arxiv  ADS  

Spin-orbit alignment of exoplanet systems: ensemble analysis using asteroseismology
2016 CAMPANTE T., LUND M., KUSZLEWICZ J., DAVIES G., CHAPLIN W. et al;
ApJ, 819, 85
paper  arxiv  ADS  

The initial physical conditions of Kepler-36 b & c
2016 OWEN J. & MORTON T.
Apj Letters, 819, L10
paper  arxiv  ADS  

Dynamical considerations for life in multihabitable planetary systems
2016 STEFFEN J. & LI G.
ApJ, 816, 97
paper  arxiv  ADS

Giant Impact: An Efficient Mechanism for the Devolatilization of Super-Earths
2015 LIU Sh-F., HORI Y.., LIN D. & ASPHAUG E.
ApJ Letters, 812, 164L
paper   arxiv   ADS

Mass-Radius Relation for Rocky Planets based on PREM
2015 ZENG L., SASSELOV D. & JACOBSEN S.
ApJ, submitted
arxiv  

The Mass-Radius Relation Between 65 Exoplanets Smaller than 4 Earth Radii
2014 WEISS L. & MARCY G.
ApJ Letters, 783, L6
paper   arxiv   ADS  

Understanding the Mass-Radius Relation for Sub-Neptunes: Radius as a Proxy for Composition
2014 LOPEZ E. & FORTNEY J.
ApJ, 792, 1
paper   arxiv   ADS  

Inside-Out Planet Formation
2014 CHATTERJEE S. & TAN J.
ApJ Letters, 780, 53
paper   arxiv   ADS  

The Role of Core Mass in Controlling Evaporation: the Kepler Radius Distribution and the Kepler-36 Density Dichotomy
2013 LOPEZ E. & FORTNEY J.
ApJ, 776, 2
paper  arxiv  

Origin Scenarios for the Kepler 36 Planetary System
2013 QUILLEN A., BODMAN E. & MOORE A.
MNRAS, 435, Issue 3, 2256-2267
paper   arxiv  

Bayesian Asteroseismology of 23 Solar-Like Kepler Targets
2013 GRUBERBAUER M., GUENTHER D., MacLEOD K. & KALLINGER Th.
MNRAS, accepted
arxiv  

Kepler-36: A Pair of Planets with Neighboring Orbits and Dissimilar Densities
2012 CARTER J., AGOL E., CHAPLIN W., BASU S., BEDDING T. &
Science, 337, 556
paper   arxiv