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Kepler-85 , the SIMBAD biblio (64 results) | C.D.S. - SIMBAD4 rel 1.8 - 2024.05.08CEST06:23:22 |
Bibcode/DOI | Score |
in Title|Abstract| Keywords |
in a table | in teXt, Caption, ... | Nb occurence | Nb objects in ref |
Citations (from ADS) |
Title | First 3 Authors |
---|---|---|---|---|---|---|---|---|---|
2012ApJS..199...24T | 15 | D | 1 | 5394 | 66 | Detection of potential transit signals in the first three quarters of Kepler mission data. | TENENBAUM P., CHRISTIANSEN J.L., JENKINS J.M., et al. | ||
2012ApJ...756..185F | 15 | D | 2 | 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. | ||
2013ApJS..204...24B | 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. | ||
2013ApJ...771..107E | 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. | ||
2013ApJ...774L..12S | 16 | D | 1 | 469 | 25 | A lack of short-period multiplanet systems with close-proximity pairs and the curious case of Kepler-42. | STEFFEN J.H. and FARR W.M. | ||
2013ApJ...774...52L | 40 | X | 1 | 18 | 43 | Are the Kepler near-resonance planet pairs due to tidal dissipation? | LEE M.H., FABRYCKY D. and LIN D.N.C. | ||
2013ApJ...775L..11M | 16 | D | 1 | 2010 | 189 | Stellar rotation periods of the Kepler Objects of Interest: a dearth of close-in planets around fast rotators. | McQUILLAN A., MAZEH T. and AIGRAIN S. | ||
2013ApJS..208...16M | 16 | D | 4 | 1518 | 139 | Transit timing observations from Kepler. VIII. Catalog of transit timing measurements of the first twelve quarters. | MAZEH T., NACHMANI G., HOLCZER T., et al. | ||
2013MNRAS.435.1126B | 55 | D | X | 2 | 72 | 20 | Exoplanet predictions based on the generalized Titius-Bode relation. | BOVAIRD T. and LINEWEAVER C.H. | |
2013ApJ...778..110M | 374 | K A | X C | 9 | 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. | |
2013MNRAS.436.1883W | 16 | D | 1 | 961 | 136 | Rotation periods, variability properties and ages for Kepler exoplanet candidate host stars. | WALKOWICZ L.M. and BASRI G.S. | ||
2013A&A...560A...4R | 16 | D | 1 | 24132 | 291 | Rotation and differential rotation of active Kepler stars. | REINHOLD T., REINERS A. and BASRI G. | ||
2014ApJS..210...19B | 16 | D | 4 | 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 | 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. | ||
2014AJ....147..119C | 16 | D | 1 | 8010 | 91 | Contamination in the Kepler field. Identification of 685 KOIs as false positives via ephemeris matching based on Q1-Q12 data. | COUGHLIN J.L., THOMPSON S.E., BRYSON S.T., et al. | ||
2014ApJ...787...80H | 16 | D | 1 | 261 | 190 | Densities and eccentricities of 139 Kepler planets from transit time variations. | HADDEN S. and LITHWICK Y. | ||
2014MNRAS.440.1753B | 55 | D | X | 2 | 32 | 4 | Stability boundaries for resonant migrating planet pairs. | BODMAN E.H.L. and QUILLEN A.C. | |
2014ApJ...791...35L | 39 | X | 1 | 800 | 137 | Robotic laser adaptive optics imaging of 715 Kepler exoplanet candidates using Robo-AO. | LAW N.M., MORTON T., BARANEC C., et al. | ||
2015ApJ...801....3M | 16 | D | 1 | 3357 | 109 | Photometric amplitude distribution of stellar rotation of KOIs–Indication for spin-orbit alignment of cool stars and high obliquity for hot stars. | MAZEH T., PERETS H.B., McQUILLAN A., et al. | ||
2015ApJS..217...16R | 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. | ||
2015MNRAS.448.1956S | 16 | D | 2 | 84 | 51 | The period ratio distribution of Kepler's candidate multiplanet systems. | STEFFEN J.H. and HWANG J.A. | ||
2015MNRAS.448.3608B | 16 | D | 2 | 156 | 6 | Using the inclinations of Kepler systems to prioritize new Titius-Bode-based exoplanet predictions. | BOVAIRD T., LINEWEAVER C.H. and JACOBSEN S.K. | ||
2015ApJ...806L..26V | 41 | X | 1 | 13 | 47 | Consolidating and crushing exoplanets: did it happen here? | VOLK K. and GLADMAN B. | ||
2015ApJ...807..170H | 16 | D | 2 | 2117 | 10 | Time variation of Kepler transits induced by stellar Spots–A way to distinguish between prograde and retrograde motion. II. Application to KOIs. | HOLCZER T., SHPORER A., MAZEH T., et al. | ||
2015ApJ...809....8B | 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. | ||
2015ApJ...813..100O | 16 | D | 1 | 327 | 7 | Deep GALEX UV survey of the Kepler field. I. Point source catalog. | OLMEDO M., LLOYD J., MAMAJEK E.E., et al. | ||
2015ApJ...814..130M | 16 | D | 4 | 2846 | 162 | An increase in the mass of planetary systems around lower-mass stars. | MULDERS G.D., PASCUCCI I. and APAI D. | ||
2016MNRAS.455.2980B | 16 | D | 4 | 52 | 19 | Oscillations of relative inclination angles in compact extrasolar planetary systems. | BECKER J.C. and ADAMS F.C. | ||
2016ApJ...821...47B | 16 | D | 1 | 217 | 14 | Efficient geometric probabilities of multi-transiting exoplanetary systems from CORBITS. | BRAKENSIEK J. and RAGOZZINE D. | ||
2016ApJ...822...86M | 16 | D | 1 | 6130 | 337 | False positive probabilities for all Kepler objects of interest: 1284 newly validated planets and 428 likely false positives. | MORTON T.D., BRYSON S.T., COUGHLIN J.L., et al. | ||
2016ApJS..225....9H | 16 | D | 6 | 2132 | 124 | Transit timing observations from Kepler. IX. Catalog of the full long-cadence data set. | HOLCZER T., MAZEH T., NACHMANI G., et al. | ||
2016AJ....152..181H | 16 | D | 1 | 9279 | 22 | SETI observations of exoplanets with the Allen Telescope Array. | HARP G.R., RICHARDS J., TARTER J.C., et al. | ||
2017AJ....153...71F | 16 | D | 1 | 3575 | 164 | The Kepler follow-up observation program. I. A catalog of companions to Kepler stars from high-resolution imaging. | FURLAN E., CIARDI D.R., EVERETT M.E., et al. | ||
2017AJ....153..180S | 16 | D | 2 | 119 | 3 | A search for lost planets in the Kepler multi-planet systems and the discovery of the long-period, Neptune-sized exoplanet Kepler-150 f. | SCHMITT J.R., JENKINS J.M. and FISCHER D.A. | ||
2017MNRAS.465.2634A | 16 | D | 4 | 5400 | 21 | Transit shapes and self-organizing maps as a tool for ranking planetary candidates: application to Kepler and K2. | ARMSTRONG D.J., POLLACCO D. and SANTERNE A. | ||
2017A&A...602A.101R | 41 | X | 1 | 69 | 10 | Planetary migration and the origin of the 2:1 and 3:2 (near)-resonant population of close-in exoplanets. | RAMOS X.S., CHARALAMBOUS C., BENITEZ-LLAMBAY P., et al. | ||
2017AJ....154..107P | 16 | D | 1 | 1306 | 226 | The California-Kepler Survey. I. High-resolution spectroscopy of 1305 stars hosting Kepler transiting planets. | PETIGURA E.A., HOWARD A.W., MARCY G.W., et al. | ||
2017AJ....154..108J | 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. | ||
2017NewA...55....1H | 16 | D | 1 | 146 | 2 | Multiple planetary systems: properties of the current sample. | HOBSON M.J. and GOMEZ M. | ||
2018ApJS..234....9O | 222 | D | X C | 5 | 436 | 14 | A spectral approach to transit timing variations. | OFIR A., XIE J.-W., JIANG C.-F., et al. | |
2018AJ....155...57C | 42 | X | 1 | 34 | 51 | The K2-138 system: a near-resonant chain of five sub-Neptune planets discovered by citizen scientists. | CHRISTIANSEN J.L., CROSSFIELD I.J.M., BARENTSEN G., et al. | ||
2018ApJ...855..115B | 16 | D | 1 | 1305 | 5 | Identifying young Kepler planet host stars from Keck-HIRES spectra of lithium. | BERGER T.A., HOWARD A.W. and BOESGAARD A.M. | ||
2018MNRAS.474.2094A | 16 | D | 1 | 1073 | 143 | Inferring probabilistic stellar rotation periods using Gaussian processes. | ANGUS R., MORTON T., AIGRAIN S., et al. | ||
2018ApJ...861..149F | 16 | D | 1 | 2261 | 6 | The Kepler Follow-up Observation Program. II. Stellar parameters from medium- and high-resolution spectroscopy. | FURLAN E., CIARDI D.R., COCHRAN W.D., et al. | ||
2018ApJS..237...38B | 16 | D | 1 | 1111 | 42 | Spectral properties of cool stars: extended abundance analysis of Kepler Objects of Interest. | BREWER J.M. and FISCHER D.A. | ||
2018ApJ...866...99B | 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. | ||
2018ApJ...866..104C | 16 | D | 1 | 33 | 14 | Identifying inflated super-Earths and photo-evaporated cores. | CARRERA D., FORD E.B., IZIDORO A., et al. | ||
2019AJ....157..143B | 17 | D | 3 | 423 | 5 | Re-evaluating small long-period confirmed planets from Kepler. | BURKE C.J., MULLALLY F., THOMPSON S.E., et al. | ||
2019ApJ...875...29M | 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..208C | 42 | X | 1 | 4 | ~ | Dynamical constraints on Mercury's collisional origin. | CLEMENT M.S., KAIB N.A. and CHAMBERS J.E. | ||
2020ApJ...890...23L | 17 | D | 4 | 4935 | 35 | Current population statistics do not favor photoevaporation over core-powered mass loss as the dominant cause of the exoplanet radius gap. | LOYD R.O.P., SHKOLNIK E.L., SCHNEIDER A.C., et al. | ||
2020AJ....159..207B | 17 | D | 1 | 150 | ~ | Transit duration variations in multiplanet systems. | BOLEY A.C., VAN LAERHOVEN C. and GRANADOS CONTRERAS A.P. | ||
2020AJ....160..108B | 17 | D | 4 | 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. | ||
2021MNRAS.501.5309H | 17 | D | 4 | 543 | ~ | Confirming known planetary trends using a photometrically selected Kepler sample. | HANSEN J.T., CASAGRANDE L., IRELAND M.J., et al. | ||
2020PASJ...72...24L | 17 | D | 1 | 90 | ~ | The reliability of the Titius-Bode relation and its implications for the search for exoplanets. | LARA P., CORDERO-TERCERO G. and ALLEN C. | ||
2021AJ....161..246J | 44 | X | 1 | 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. | ||
2021ApJS..255...17S | 17 | D | 1 | 39591 | 57 | Surface rotation and photometric activity for Kepler targets. II. G and F main-sequence stars and cool subgiant stars. | SANTOS A.R.G., BRETON S.N., MATHUR S., et al. | ||
2021AJ....162...98B | 17 | D | 2 | 2175 | ~ | Seeking echoes of circumstellar disks in Kepler light curves. | BROMLEY B.C., LEONARD A., QUINTANILLA A., et al. | ||
2021ApJ...919..138T | 17 | D | 1 | 531 | 12 | Further evidence for tidal spin-up of hot Jupiter host stars. | TEJADA AREVALO R.A., WINN J.N. and ANDERSON K.R. | ||
2021ApJ...920...19G | 17 | D | 1 | 807 | 5 | A spectroscopic analysis of the California-Kepler Survey sample. II. Correlations of stellar metallicities with planetary architectures. | GHEZZI L., MARTINEZ C.F., WILSON R.F., et al. | ||
2021ApJ...921...24S | 17 | D | 2 | 328 | 1 | The occurrence-weighted median planets discovered by transit surveys orbiting solar-type stars and their implications for planet formation and evolution. | SCHLAUFMAN K.C. and HALPERN N.D. | ||
2022ApJ...932...61R | 45 | X | 1 | 7 | 5 | The Criterion for Chaos in Three-planet Systems. | RATH J., HADDEN S. and LITHWICK Y. | ||
2023A&A...669A.117L | 19 | D | 2 | 57 | ~ | Removing biases on the density of sub-Neptunes characterised via transit timing variations Update on the mass-radius relationship of 34 Kepler planets. | LELEU A., DELISLE J.-B., UDRY S., et al. | ||
2024AJ....167..103J | 150 | X | 3 | 190 | ~ | Kepler Multitransiting System Physical Properties and Impact Parameter Variations. | JUDKOVSKY Y., OFIR A. and AHARONSON O. |