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Kepler-88b , the SIMBAD biblio (59 results) | C.D.S. - SIMBAD4 rel 1.8 - 2024.03.28CET12:20:13 |
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 |
---|---|---|---|---|---|---|---|---|---|
2012Natur.486..375B | 15 | D | 1 | 378 | 520 | An abundance of small exoplanets around stars with a wide range of metallicities. | BUCHHAVE L.A., LATHAM D.W., JOHANSEN A., et al. | ||
2012ApJ...756..185F | 15 | 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. | ||
2011PASP..123..412W | 15 | D | 1 | 2897 | 398 | The Exoplanet Orbit Database. | WRIGHT J.T., KAKHOURI O., MARCY G.W., 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...770...69P | 16 | D | 1 | 245 | 238 | A plateau in the planet population below twice the size of Earth. | PETIGURA E.A., MARCY G.W. and HOWARD A.W. | ||
2013MNRAS.434.1883K | 56 | D | X | 2 | 6 | 13 | A simple, quantitative method to infer the minimum atmospheric height of small exoplanets. | KIPPING D.M., SPIEGEL D.S. and SASSELOV D.D. | |
2013ApJ...777....3N | 1481 | A | X C | 37 | 4 | 122 | KOI-142, the king of transit variations, is a pair of planets near the 2:1 resonance. | NESVORNY D., KIPPING D., TERRELL D., et al. | |
2014ApJS..210...19B | 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. | ||
2014A&A...561L...1B | 378 | A | X | 10 | 10 | 19 | SOPHIE velocimetry of Kepler transit candidates. X. KOI-142c: first radial velocity confirmation of a non-transiting exoplanet discovered by transit timing. | BARROS S.C.C., DIAZ R.F., SANTERNE A., et al. | |
2014ApJ...787..132D | 205 | X C | 4 | 6 | 99 | TTVFast: an efficient and accurate code for transit timing inversion problems. | DECK K.M., AGOL E., HOLMAN M.J., et al. | ||
2014ApJ...790...31N | 275 | X | 7 | 14 | 13 | Photo-dynamical analysis of three Kepler Objects of Interest with significant transit timing variations. | NESVORNY D., KIPPING D., TERRELL D., et al. | ||
2014ApJ...791...35L | 16 | D | 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. | ||
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. | ||
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. | ||
2015MNRAS.451.4060S | 40 | X | 1 | 22 | 7 | Ground-based transit observations of the HAT-P-18, HAT-P-19, HAT-P-27/WASP40 and WASP-21 systems. | SEELIGER M., KITZE M., ERRMANN R., 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. | ||
2015MNRAS.454.4267B | 80 | X | 2 | 11 | 27 | Photodynamical mass determination of the multiplanetary system K2-19. | BARROS S.C.C., ALMENARA J.M., DEMANGEON O., et al. | ||
2016ApJ...821...96D | 41 | X | 1 | 11 | 11 | Transit timing variations for planets near eccentricity-type mean motion resonances. | DECK K.M. and AGOL E. | ||
2016ApJ...825...19W | 18 | D | 1 | 99 | 221 | Probabilistic mass-radius relationship for sub-Neptune-sized planets. | WOLFGANG A., ROGERS L.A. and FORD E.B. | ||
2016ApJS..225....9H | 40 | X | 1 | 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. | ||
2017ApJ...834...17C | 17 | D | 1 | 290 | 454 | Probabilistic forecasting of the masses and radii of other worlds. | CHEN J. and KIPPING D. | ||
2017AJ....153...70S | 41 | X | 1 | 15 | 13 | Mass constraints of the WASP-47 planetary system from radial velocities. | SINUKOFF E., HOWARD A.W., PETIGURA E.A., et al. | ||
2017AJ....153..191S | 81 | F | 1 | 41 | 23 | Detection of the atmosphere of the 1.6 M⊕ exoplanet GJ 1132 b. | SOUTHWORTH J., MANCINI L., MADHUSUDHAN N., et al. | ||
2017MNRAS.466.1868C | 16 | D | 1 | 176 | 21 | An overabundance of low-density Neptune-like planets. | CUBILLOS P., ERKAEV N.V., JUVAN I., et al. | ||
2017A&A...601A.128N | 42 | X | 1 | 10 | 10 | Mass determination of K2-19b and K2-19c from radial velocities and transit timing variations. | NESPRAL D., GANDOLFI D., DEEG H.J., et al. | ||
2017AJ....154....5H | 16 | D | 1 | 231 | 145 | Kepler planet masses and eccentricities from TTV analysis. | HADDEN S. and LITHWICK Y. | ||
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. | ||
2017A&A...603A..30S | 16 | D | 4 | 2500 | 58 | Observational evidence for two distinct giant planet populations. | SANTOS N.C., ADIBEKYAN V., FIGUEIRA P., et al. | ||
2017A&A...605A..37D | 1040 | A | S X C | 24 | 6 | 4 | Spin dynamics of close-in planets exhibiting large transit timing variations. | DELISLE J.-B., CORREIA A.C.M., LELEU A., et al. | |
2018A&A...615A..79V | 82 | C | 2 | 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. | ||
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. | ||
2018AJ....156..264F | 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. | ||
2019MNRAS.482.4146D | 17 | D | 1 | 19 | 8 | 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. | ||
2019A&A...624A..71W | 84 | X | 2 | 69 | 2 | Comparative analysis of the influence of Sgr A* and nearby active galactic nuclei on the mass loss of known exoplanets. | WISLOCKA A.M., KOVACEVIC A.B. and BALBI A. | ||
2019AJ....157..171K | 100 | D | X | 3 | 4069 | 2 | Visual analysis and demographics of Kepler transit timing variations. | KANE M., RAGOZZINE D., FLOWERS X., et al. | |
2019AJ....157..235C | 393 | K | D | X C | 9 | 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. |
2019ApJ...880L...1A | 42 | X | 1 | 146 | ~ | A gap in the mass distribution for warm Neptune and terrestrial planets. | ARMSTRONG D.J., MERU F., BAYLISS D., et al. | ||
2020AJ....159...41T | 17 | D | 1 | 564 | ~ | Estimating planetary mass with deep learning. | TASKER E.J., LANEUVILLE M. and GUTTENBERG N. | ||
2020AJ....159..124K | 43 | X | 1 | 131 | ~ | Searching the entirety of Kepler data. I. 17 new planet candidates including one Habitable Zone world. | KUNIMOTO M., MATTHEWS J.M. and NGO H. | ||
2020AJ....159..223D | 426 | S X C | 8 | 18 | ~ | Robustly detecting changes in warm Jupiters' transit impact parameters. | DAWSON R.I. | ||
2020AJ....159..239G | 17 | D | 1 | 1408 | ~ | Updated parameters and a new transmission spectrum of HD 97658b. | GUO X., CROSSFIELD I.J.M., DRAGOMIR D., et al. | ||
2020AJ....159..242W | 834 | A | X C | 19 | 16 | ~ | The discovery of the long-period, eccentric planet Kepler-88 d and system characterization with radial velocities and photodynamical analysis. | WEISS L.M., FABRYCKY D.C., AGOL E., et al. | |
2020AJ....159..248K | 45 | X | 1 | 26 | 62 | Searching the entirety of Kepler data. II. Occurrence rate estimates for FGK stars. | KUNIMOTO M. and MATTHEWS J.M. | ||
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. | ||
2020MNRAS.496.3101P | 43 | X | 1 | 7 | ~ | Resonance in the K2-19 system is at odds with its high reported eccentricities. | PETIT A.C., PETIGURA E.A., DAVIES M.B., et al. | ||
2020AJ....160..108B | 17 | D | 1 | 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. | ||
2020A&A...640A..32H | 44 | X | 1 | 13 | 17 | Discovery and characterization of the exoplanets WASP-148b and c. A transiting system with two interacting giant planets. | HEBRARD G., DIAZ R.F., CORREIA A.C.M., et al. | ||
2021A&A...649L...5B | 17 | D | 2 | 41 | 19 | Dry or water world? How the water contents of inner sub-Neptunes constrain giant planet formation and the location of the water ice line. | BITSCH B., RAYMOND S.N., BUCHHAVE L.A., et al. | ||
2021MNRAS.505.1293S | 87 | X | 2 | 53 | 7 | Systematic search for long-term transit duration changes in Kepler transiting planets. | SHAHAF S., MAZEH T., ZUCKER S., et al. | ||
2021AJ....162..166M | 17 | D | 2 | 22 | 19 | Evidence for a nondichotomous solution to the Kepler dichotomy: mutual inclinations of Kepler planetary systems from transit duration variations. | MILLHOLLAND S.C., HE M.Y., FORD E.B., et al. | ||
2021ApJ...921...24S | 17 | D | 1 | 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...926..120V | 45 | X | 1 | 645 | 13 | ExoMiner: A Highly Accurate and Explainable Deep Learning Classifier That Validates 301 New Exoplanets. | VALIZADEGAN H., MARTINHO M.J.S., WILKENS L.S., et al. | ||
2022ApJS..261...26S | 18 | D | 3 | 1893 | 2 | Magnetic Activity and Physical Parameters of Exoplanet Host Stars Based on LAMOST DR7, TESS, Kepler, and K2 Surveys. | SU T., ZHANG L.-Y., LONG L., et al. | ||
2023MNRAS.519.6028R | 19 | D | 1 | 86 | 7 | Exoplanet atmosphere evolution: emulation with neural networks. | ROGERS J.G., MUNOZ C.J., OWEN J.E., et al. | ||
2023A&A...674A.120A | 19 | D | 1 | 189 | 1 | DREAM II. The spin-orbit angle distribution of close-in exoplanets under the lens of tides. | ATTIA O., BOURRIER V., DELISLE J.-B., et al. | ||
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. | ||
2023A&A...676L...8V | 19 | D | 1 | 10 | ~ | Rocky sub-Neptunes formed by pebble accretion: Rain of rock from polluted envelopes. | VAZAN A. and ORMEL C.W. | ||
2024ApJS..270....8W | 20 | D | 1 | 246 | ~ | The Kepler Giant Planet Search. I. A Decade of Kepler Planet-host Radial Velocities from W. M. Keck Observatory. | WEISS L.M., ISAACSON H., HOWARD A.W., et al. |