Kepler-30c , the SIMBAD biblio

Kepler-30c , the SIMBAD biblio (71 results) C.D.S. - SIMBAD4 rel 1.8 - 2024.04.25CEST04:07:31

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Keywords 		in a table in teXt, Caption, ... Nb occurence Nb objects in ref Citations
(from ADS) 		Title First 3 Authors
2011ApJS..197...12D 15       D               1 124 184 Lack of inflated radii for Kepler giant planet candidates receiving modest stellar irradiation. DEMORY B.-O. and SEAGER S.
2011A&A...536L...9T viz 10 9 Detection of transit timing variations in excess of one hour in the Kepler multi-planet candidate system KOI 806 with the GTC. TINGLEY B., PALLE E., PARVIAINEN H., et al.
2012MNRAS.421.2342S viz 17       D               1 23 131 Transit timing observations from Kepler - III. Confirmation of four multiple planet systems by a Fourier-domain study of anticorrelated transit timing variations. STEFFEN J.H., FABRYCKY D.C., FORD E.B., et al.
2012ApJ...750..113F viz 1 32 70 Transit timing observations from Kepler. II. Confirmation of two multiplanet systems via a non-parametric correlation analysis. FORD E.B., FABRYCKY D.C., STEFFEN J.H., et al.
2012ApJ...750..114F viz 1 50 176 Transit timing observations from Kepler. IV. Confirmation of four multiple-planet systems by simple physical models. FABRYCKY D.C., FORD E.B., STEFFEN J.H., et al.
2012Natur.487..449S 20 4 161 Alignment of the stellar spin with the orbits of a three-planet system. SANCHIS-OJEDA R., FABRYCKY D.C., WINN J.N., et al.
2012ApJ...756..185F viz 93       D     X         3 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.
2011PASP..123..412W viz 15       D               1 2897 398 The Exoplanet Orbit Database. WRIGHT J.T., KAKHOURI O., MARCY G.W., et al.
2013ApJ...764...18L viz 16       D               1 174 6 Pulsation frequencies and modes of giant exoplanets. LE BIHAN B. and BURROWS A.
2013ApJS..204...24B viz 16       D               1 3274 922 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.
2013MNRAS.430.1369L 78           X         2 14 2 Detection of Laplace-resonant three-planet systems from transit timing variations. LIBERT A.-S. and RENNER S.
2013ApJ...767...94S viz 16       D               1 267 74 A 1.1-1.9 GHz SETI survey of the Kepler field. I. A search for narrow-band emission from select targets. SIEMION A.P.V., DEMOREST P., KORPELA E., et al.
2013AN....334..180S 156           X         4 7 8 Starspots and spin-orbit alignment for Kepler cool host stars. SANCHIS-OJEDA R., WINN J.N. and FABRYCKY D.C.
2013A&A...552A.119S viz 16       D               1 1487 118 Magnetic energy fluxes in sub-Alfvenic planet star and moon planet interactions. SAUR J., GRAMBUSCH T., DULING S., et al.
2013ApJ...771...11A 80             C       1 20 108 Low stellar obliquities in compact multiplanet systems. ALBRECHT S., WINN J.N., MARCY G.W., et al.
2013ApJ...771..107E viz 16       D               1 756 47 Spectroscopy of faint Kepler mission exoplanet candidate host stars. EVERETT M.E., HOWELL S.B., SILVA D.R., et al.
2013AJ....146..122K 133       D     X C       3 42 4 Solar system moons as analogs for compact exoplanetary systems. KANE S.R., HINKEL N.R. and RAYMOND S.N.
2013ApJ...778..110M 39           X         1 23 0 Eight planets in four multi-planet systems via transit timing variations in 1350 days. MING Y., LIU H.-G., HUI Z., et al.
2014ApJS..210...19B viz 16       D               1 5860 211 Planetary candidates observed by Kepler IV: planet sample from Q1-Q8 (22 months). BURKE C.J., BRYSON S.T., MULLALLY F., et al.
2014ApJ...784...45R viz 16       D               1 1691 388 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...784...66X 81             C       1 4 22 Tidal evolution of the spin-orbit angle in exoplanetary systems. XUE Y., SUTO Y., TARUYA A., et al.
2014ApJ...787...80H viz 16       D               2 261 190 Densities and eccentricities of 139 Kepler planets from transit time variations. HADDEN S. and LITHWICK Y.
2014ApJ...790..146F viz 16       D               1 918 579 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.
2014ApJ...796...48Z viz 16       D               1 199 11 The ground-based H-, K-, and L-band absolute emission spectra of HD 209458b. ZELLEM R.T., GRIFFITH C.A., DEROO P., et al.
2014A&A...571A..37S viz 39           X         1 39 64 SOPHIE velocimetry of Kepler transit candidates. XII. KOI-1257 b: a highly eccentric three-month period transiting exoplanet. SANTERNE A., HEBRARD G., DELEUIL M., et al.
2014MNRAS.445.4395Y viz 16       D               1 192 1 On the structure and evolution of planets and their host stars - effects of various heating mechanisms on the size of giant gas planets. YILDIZ M., CELIK ORHAN Z., KAYHAN C., et al.
2015ApJ...798...66D 40           X         1 296 60 The photoeccentric effect and proto-hot jupiters. III. A paucity of proto-hot jupiters on super-eccentric orbits. DAWSON R.I., MURRAY-CLAY R.A. and JOHNSON J.A.
2015ApJ...800L...9A 79           X         2 15 7 The well-aligned orbit of Wasp-84b: evidence for disk migration of a hot Jupiter. ANDERSON D.R., TRIAUD A.H.M.J., TURNER O.D., et al.
2015ApJ...801...41R 45           X         1 52 558 Most 1.6 Earth-radius planets are not rocky. ROGERS L.A.
2015ApJS..217...16R viz 16       D               1 8625 149 Planetary candidates observed by Kepler. V. Planet sample from Q1-Q12 (36 months). ROWE J.F., COUGHLIN J.L., ANTOCI V., et al.
2015ApJS..217...31M viz 16       D               1 2033 213 Planetary candidates observed by Kepler. VI. Planet sample from Q1–Q16 (47 months). MULLALLY F., COUGHLIN J.L., THOMPSON S.E., et al.
2015A&A...579A..55B 16       D               1 21 25 SOPHIE velocimetry of Kepler transit candidates. XVI. Tomographic measurement of the low obliquity of KOI-12b, a warm Jupiter transiting a fast rotator. BOURRIER V., LECAVELIER DES ETANGS A., HEBRARD G., et al.
2015ApJ...809....8B viz 16       D               1 112329 282 Terrestrial planet occurrence rates for the Kepler GK dwarf sample. BURKE C.J., CHRISTIANSEN J.L., MULLALLY F., 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.
2015ApJ...815...47N 40           X         1 19 15 Characterization of the K2-19 multiple-transiting planetary system via high-dispersion spectroscopy, AO imaging, and transit timing variations. NARITA N., HIRANO T., FUKUI A., et al.
2016ApJ...823...29A 16       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.
2016AJ....151..150M 40           X         1 13 11 Starspots on WASP-85. MOCNIK T., CLARK B.J.M., ANDERSON D.R., et al.
2016ApJ...825...98H 16       D               1 166 128 Warm jupiters are less lonely than hot jupiters: close neighbors. HUANG C., WU Y. and TRIAUD A.H.M.J.
2016ApJ...831...64T viz 20       D               1 49 237 The mass-metallicity relation for giant planets. THORNGREN D.P., FORTNEY J.J., MURRAY-CLAY R.A., et al.
2016AJ....152..158T viz 16       D               1 4387 37 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.
2017AJ....154....5H viz 41           X         1 231 145 Kepler planet masses and eccentricities from TTV analysis. HADDEN S. and LITHWICK Y.
2017AJ....154..108J viz 16       D               1 3237 137 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.
2018AJ....155...48W viz 16       D               1 911 204 The California-Kepler survey. V. Peas in a pod: planets in a Kepler multi-planet system are similar in size and regularly spaced. WEISS L.M., MARCY G.W., PETIGURA E.A., et al.
2018AJ....155..206A viz 16       D               3 183 5 Systematic search for rings around Kepler planet candidates: constraints on ring size and occurrence rate. AIZAWA M., MASUDA K., KAWAHARA H., et al.
2018MNRAS.478.2480P 782     A D     X C       19 27 5 The architecture and formation of the Kepler-30 planetary system. PANICHI F., GOZDZIEWSKI K., MIGASZEWSKI C., et al.
2018A&A...615A..79V viz 83 9 Kepler Object of Interest Network. I. First results combining ground- and space-based observations of Kepler systems with transit timing variations. VON ESSEN C., OFIR A., DREIZLER S., et al.
2018AJ....156...96W 741     A D     X C       18 31 3 TTV-determined masses for warm Jupiters and their close planetary companions. WU D.-H., WANG S., ZHOU J.-L., et al.
2018ApJ...866...99B viz 16       D               1 7129 233 Revised radii of Kepler stars and planet's using Gaia Data Release 2. BERGER T.A., HUBER D., GAIDOS E., et al.
2018AJ....156..254W viz 16       D               1 1269 42 The California-Kepler Survey. VI. Kepler multis and singles have similar planet and stellar properties indicating a common origin. WEISS L.M., ISAACSON H.T., MARCY G.W., et al.
2018AJ....156..264F viz 16       D               1 1909 365 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.
2019A&A...623A.104H 167           X C       3 20 1 SOPHIE velocimetry of Kepler transit candidates. XIX. The transiting temperate giant planet KOI-3680b. HEBRARD G., BONOMO A.S., DIAZ R.F., et al.
2019ApJ...874L..31T viz 17       D               1 403 62 Connecting giant planet atmosphere and interior modeling: constraints on atmospheric metal enrichment. THORNGREN D. and FORTNEY J.J.
2019ApJ...875...29M viz 17       D               1 2918 72 A spectroscopic analysis of the California-Kepler Survey sample. I. Stellar parameters, planetary radii, and a slope in the radius gap. MARTINEZ C.F., CUNHA K., GHEZZI L., et al.
2019AJ....157..171K viz 17       D               1 4069 2 Visual analysis and demographics of Kepler transit timing variations. KANE M., RAGOZZINE D., FLOWERS X., et al.
2019AJ....157..235C viz 17       D               2 415 7 Observations of the Kepler field with TESS: predictions for planet yield and observable features. CHRIST C.N., MONTET B.T. and FABRYCKY D.C.
2020AJ....159...41T viz 17       D               1 564 ~ Estimating planetary mass with deep learning. TASKER E.J., LANEUVILLE M. and GUTTENBERG N.
2020PASP..132e4401Z 17       D               1 81 38 Utilizing small telescopes operated by citizen scientists for transiting Exoplanet follow-up. ZELLEM R.T., PEARSON K.A., BLASER E., et al.
2020AJ....160..108B viz 102       D         F     2 6855 109 The Gaia-Kepler stellar properties catalog. II. Planet radius demographics as a function of stellar mass and age. BERGER T.A., HUBER D., GAIDOS E., et al.
2020ApJ...903..147M 60       D     X         2 23 ~ Theoretical versus observational uncertainties: composition of giant exoplanets. MULLER S., BEN-YAMI M. and HELLED R.
2021AJ....161..235H viz 46           X         1 6 17 A Transiting warm giant planet around the young active star TOI-201. HOBSON M.J., BRAHM R., JORDAN A., et al.
2021AJ....161..246J viz 17       D               9 204 12 Following up the Kepler field: masses of targets for transit timing and atmospheric characterization. JONTOF-HUTTER D., WOLFGANG A., FORD E.B., et al.
2021A&A...650A..40D 287     A     X         7 6 ~ Multiscale behaviour of stellar activity and rotation of the planet host Kepler-30. DE FREITAS D.B., LANZA A.F., DA SILVA GOMES F.O., et al.
2022A&A...659A.114G 1523     A D S   X C       33 12 3 Investigating the detectability of hydrocarbons in exoplanet atmospheres with JWST. GASMAN D., MIN M. and CHUBB K.L.
2022AJ....164...42J 242       D     X         6 79 3 TESS Observations of Kepler Systems with Transit Timing Variations. JONTOF-HUTTER D., DALBA P.A. and LIVINGSTON J.H.
2022PASP..134h2001A viz 18       D               2 366 39 Stellar Obliquities in Exoplanetary Systems. ALBRECHT S.H., DAWSON R.I. and WINN J.N.
2022MNRAS.516.3431V 18       D               1 87 6 An edge-on orbit for the eccentric long-period planet HR 5183 b. VENNER A., PEARCE L.A. and VANDERBURG A.
2023AJ....165..171W 65       D     X         2 42 7 Evidence for Hidden Nearby Companions to Hot Jupiters. WU D.-H., RICE M. and WANG S.
2023RAA....23f5005B 19       D               1 60 ~ Relation between Mass and Radius of Exoplanets Distinguished by their Density. BETZLER A.S. and MIRANDA J.G.V.
2023MNRAS.524.1113S 19       D               1 85 ~ TESS spots a mini- interior to a hot saturn in the TOI-2000 system. SHA L., VANDERBURG A.M., HUANG C.X., et al.
2024AJ....167...20Z 20       D               1 230 ~ The Breakthrough Listen Search for Intelligent Life: Detection and Characterization of Anomalous Transits in Kepler Lightcurves. ZUCKERMAN A., DAVENPORT J.R.A., CROFT S., et al.
2024AJ....167...48M 50           X         1 72 ~ Signs of Similar Stellar Obliquity Distributions for Hot and Warm Jupiters Orbiting Cool Stars. MORGAN M., BOWLER B.P., TRAN Q.H., et al.

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