Kepler-56b , the SIMBAD biblio

Kepler-56b , the SIMBAD biblio (48 results) C.D.S. - SIMBAD4 rel 1.7 - 2021.09.19CEST09:58:04


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Title First 3 Authors
2020AJ....159...41T viz 19       D               1 564 ~ Estimating planetary mass with deep learning. TASKER E.J., LANEUVILLE M. and GUTTENBERG N.
2020AJ....160..193D 47           X         1 7 ~ The TESS-Keck survey. III. A stellar obliquity measurement of TOI-1726 c. DAI F., ROY A., FULTON B., et al.
2020ApJ...897....7M 112       D       C       2 36 ~ Tidal inflation reconciles low-density sub-Saturns with core accretion. MILLHOLLAND S., PETIGURA E. and BATYGIN K.
2019A&A...630A.135U viz 18       D               1 501 ~ Beyond the exoplanet mass-radius relation. ULMER-MOLL S., SANTOS N.C., FIGUEIRA P., et al.
2019AJ....157..137K 90               F     1 10 ~ The misaligned orbit of the Earth-sized planet Kepler-408b. KAMIAKA S., BENOMAR O., SUTO Y., et al.
2019AJ....157..149L viz 134           X C       2 115 ~ Retired A stars and their companions. VIII. 15 new planetary signals around subgiants and transit parameters for California Planet Search planets with subgiant hosts. LUHN J.K., BASTIEN F.A., WRIGHT J.T., et al.
2019AJ....157..171K viz 18       D               1 4069 ~ Visual analysis and demographics of Kepler transit timing variations. KANE M., RAGOZZINE D., FLOWERS X., et al.
2019ApJ...880L...1A viz 18       D               1 146 ~ A gap in the mass distribution for warm Neptune and terrestrial planets. ARMSTRONG D.J., MERU F., BAYLISS D., et al.
2019MNRAS.482.4146D 18       D               1 19 ~ Hidden planetary friends: on the stability of two-planet systems in the presence of a distant, inclined companion. DENHAM P., NAOZ S., HOANG B.-M., et al.
2019MNRAS.484.3233B 90               F     1 35 ~ HARPS-N radial velocities confirm the low densities of the Kepler-9 planets. BORSATO L., MALAVOLTA L., PIOTTO G., et al.
2018AJ....156..264F viz 17       D               1 1909 112 The California-Kepler Survey. VII. Precise planet radii leveraging Gaia DR2 reveal the stellar mass dependence of the Planet radius gap. FULTON B.J. and PETIGURA E.A.
2018ApJ...866...99B viz 17       D               1 7129 101 Revised radii of Kepler stars and planet's using Gaia Data Release 2. BERGER T.A., HUBER D., GAIDOS E., et al.
2017A&A...603A..30S viz 17       D               6 2500 14 Observational evidence for two distinct giant planet populations. SANTOS N.C., ADIBEKYAN V., FIGUEIRA P., et al.
2017AJ....153..142P viz 102       D       C       2 30 17 Four sub-Saturns with dissimilar densities: windows into planetary cores and envelopes. PETIGURA E.A., SINUKOFF E., LOPEZ E.D., et al.
2017AJ....153..210H 43           X         1 19 14 Dynamically hot super-Earths from outer giant planet scattering. HUANG C.X., PETROVICH C. and DEIBERT E.
2017AJ....153..211Z viz 43           X         1 24 11 HAT-P-67b: an extremely low density Saturn transiting an F-subgiant confirmed via Doppler tomography. ZHOU G., BAKOS G.A., HARTMAN J.D., et al.
2017AJ....154....5H viz 102       D     X         3 231 38 Kepler planet masses and eccentricities from TTV analysis. HADDEN S. and LITHWICK Y.
2017AJ....154..108J viz 17       D               1 3237 46 The California-Kepler Survey. II. Precise physical properties of 2025 Kepler planets and their host stars. JOHNSON J.A., PETIGURA E.A., FULTON B.J., et al.
2017ApJ...834...17C viz 17       D               1 289 84 Probabilistic forecasting of the masses and radii of other worlds. CHEN J. and KIPPING D.
2017MNRAS.464.1709G 641     A D     X C F     14 4 8 Outer-planet scattering can gently tilt an inner planetary system. GRATIA P. and FABRYCKY D.
2017MNRAS.465.1308N 43           X         1 3 ~ A simple model to describe intrinsic stellar noise for exoplanet detection around red giants. NORTH T.S.H., CHAPLIN W.J., GILLILAND R.L., et al.
2017MNRAS.466.1868C viz 60       D     X         2 176 16 An overabundance of low-density Neptune-like planets. CUBILLOS P., ERKAEV N.V., JUVAN I., et al.
2016AJ....152..143V 43           X         1 20 21 The K2-ESPRINT project V: a short-period giant planet orbiting a subgiant star. VAN EYLEN V., ALBRECHT S., GANDOLFI D., et al.
2016AJ....152..158T viz 17       D               1 4386 18 Detection of potential transit signals in 17 quarters of Kepler data: results of the final Kepler mission transiting planet search (DR25). TWICKEN J.D., JENKINS J.M., SEADER S.E., et al.
2016AJ....152..165O 254           X C       5 4 14 The orbit and mass of the third planet in the Kepler-56 system. OTOR O.J., MONTET B.T., JOHNSON J.A., et al.
2016ApJ...823...29A 17       D               1 117 7 Spin-orbit alignment for three transiting hot jupiters: WASP-103b, WASP-87b, and WASP-66b. ADDISON B.C., TINNEY C.G., WRIGHT D.J., et al.
2016MNRAS.461.1841C 17       D               1 150 9 An upper boundary in the mass-metallicity plane of exo-Neptunes. COURCOL B., BOUCHY F. and DELEUIL M.
2015A&A...573A...3J 84             C       1 9 18 A planetary system and a highly eccentric brown dwarf around the giant stars HIP 67851 and HIP 97233. JONES M.I., JENKINS J.S., ROJO P., et al.
2015A&A...573A..36N 41           X         1 33 21 Tracking Advanced Planetary Systems (TAPAS) with HARPS-N. I. A multiple planetary system around the red giant star TYC 1422-614-1. NIEDZIELSKI A., VILLAVER E., WOLSZCZAN A., et al.
2015A&A...573L...5C viz 86           X         2 6 29 Kepler-432b: a massive planet in a highly eccentric orbit transiting a red giant. CICERI S., LILLO-BOX J., SOUTHWORTH J., et al.
2015ApJ...802...57S 124           X C       2 7 9 Precise radial velocity measurements for Kepler giants hosting planetary candidates: Kepler-91 and KOI-1894. SATO B., HIRANO T., OMIYA M., et al.
2015ApJ...803....1N 41           X         1 31 9 Three red giants with substellar-mass companions. NIEDZIELSKI A., WOLSZCZAN A., NOWAK G., et al.
2015ApJ...809....8B viz 16       D               1 112329 139 Terrestrial planet occurrence rates for the Kepler GK dwarf sample. BURKE C.J., CHRISTIANSEN J.L., MULLALLY F., et al.
2015ApJS..217...16R viz 16       D               1 8625 84 Planetary candidates observed by Kepler. V. Planet sample from Q1-Q12 (36 months). ROWE J.F., COUGHLIN J.L., ANTOCI V., et al.
2015MNRAS.453.4089S 16       D               1 103 3 Tides alone cannot explain Kepler planets close to 2:1 MMR. SILBURT A. and REIN H.
2014A&A...572A...2B 42           X         1 14 24 Characterization of the planetary system Kepler-101 with HARPS-N. A hot super-Neptune with an Earth-sized low-mass companion. BONOMO A.S., SOZZETTI A., LOVIS C., et al.
2014ApJ...783....4W viz 16       D               1 487 55 Influence of stellar multiplicity on planet formation. I. Evidence of suppressed planet formation due to stellar companions within 20 AU and validation of four planets from the Kepler multiple planet candidates. WANG J., XIE J.-W., BARCLAY T., et al.
2014ApJ...784...45R viz 16       D               1 1691 227 Validation of Kepler's multiple planet candidates. III. Light curve analysis and announcement of hundreds of new multi-planet systems. ROWE J.F., BRYSON S.T., MARCY G.W., et al.
2014ApJ...787...80H viz 16       D               2 261 93 Densities and eccentricities of 139 Kepler planets from transit time variations. HADDEN S. and LITHWICK Y.
2014ApJ...790..146F viz 16       D               1 918 322 Architecture of Kepler's multi-transiting systems. II. New investigations with twice as many candidates. FABRYCKY D.C., LISSAUER J.J., RAGOZZINE D., et al.
2014ApJS..210...19B viz 16       D               1 5860 162 Planetary candidates observed by Kepler IV: planet sample from Q1-Q8 (22 months). BURKE C.J., BRYSON S.T., MULLALLY F., et al.
2014Natur.513..358P 1 35 37 Instrumentation for the detection and characterization of exoplanets. PEPE F., EHRENREICH D. and MEYER M.R.
2013A&A...552A.119S viz 16       D               1 1488 42 Magnetic energy fluxes in sub-Alfvenic planet star and moon planet interactions. SAUR J., GRAMBUSCH T., DULING S., et al.
2013ApJ...767..127H viz 16       D               1 189 177 Fundamental properties of Kepler planet-candidate host stars using asteroseismology. HUBER D., CHAPLIN W.J., CHRISTENSEN-DALSGAARD J., et al.
2013ApJ...775...34O 16       D               1 89 24 Condition for capture into first-order mean motion resonances and application to constraints on the origin of resonant systems. OGIHARA M. and KOBAYASHI H.
2013ApJS..204...24B viz 16       D               1 3274 779 Planetary candidates observed by Kepler. III. Analysis of the first 16 months of data. BATALHA N.M., ROWE J.F., BRYSON S.T., et al.
2012ApJ...756..185F viz 16       D               1 1856 44 Transit timing observations from Kepler. V. Transit timing variation candidates in the first sixteen months from polynomial models. FORD E.B., RAGOZZINE D., ROWE J.F., et al.
2012Natur.486..375B viz 16       D               1 378 334 An abundance of small exoplanets around stars with a wide range of metallicities. BUCHHAVE L.A., LATHAM D.W., JOHANSEN A., et al.

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2021.09.19-09:58:04

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