KOI-2700 , the SIMBAD biblio

KOI-2700 , the SIMBAD biblio (30 results) C.D.S. - SIMBAD4 rel 1.7 - 2021.09.19CEST16:17:13


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Title First 3 Authors
2020ApJ...890...23L 19       D               1 4935 ~ 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.
2019MNRAS.485.3876G 45           X         1 12 ~ Monitoring of the D doublet of neutral sodium during transits of two 'evaporating' planets. GAIDOS E., HIRANO T. and ANSDELL M.
2018AJ....156..173B 261       S   X C       4 10 1 Inferring the composition of disintegrating planet interiors from dust tails with future James Webb Space telescope observations. BODMAN E.H.L., WRIGHT J.T., DESCH S.J., et al.
2018AJ....156..281S 44           X         1 10 ~ Back to "normal" for the disintegrating planet candidate KIC 12557548 b. SCHLAWIN E., HIRANO T., KAWAHARA H., et al.
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.
2018ApJS..234....9O viz 17       D               1 436 4 A spectral approach to transit timing variations. OFIR A., XIE J.-W., JIANG C.-F., et al.
2017A&A...603A..30S viz 17       D               2 2500 14 Observational evidence for two distinct giant planet populations. SANTOS N.C., ADIBEKYAN V., FIGUEIRA P., et al.
2017AJ....153...71F viz 17       D               1 3575 46 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.
2017MNRAS.465.2634A viz 17       D               1 5400 9 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.
2016ApJ...816...17W 126           X         3 27 47 The search for extraterrestrial civilizations with large energy supplies. IV. The signatures and information content of transiting megastructures. WRIGHT J.T., CARTIER K.M.S., ZHAO M., et al.
2016ApJ...822...86M viz 17       D               1 6129 192 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.
2016ApJ...828...80K 42           X         1 26 12 Atmosphere-interior exchange on hot, rocky exoplanets. KITE E.S., FEGLEY B.Jr, SCHAEFER L., et al.
2016MNRAS.461.1413V 43           X         1 6 9 Dynamical mass and multiplicity constraints on co-orbital bodies around stars. VERAS D., MARSH T.R. and GANSICKE B.T.
2015ApJ...800L..21B 46           X         1 4 20 Direct evidence for an evolving dust cloud from the exoplanet KIC 12557548 b. BOCHINSKI J.J., HASWELL C.A., MARSH T.R., et al.
2015ApJ...801....3M viz 16       D               1 3357 52 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.
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.
2015ApJ...812..112S 46           X         1 13 71 The K2-ESPRINT project I: discovery of the disintegrating rocky planet K2-22b with a cometary head and leading tail. SANCHIS-OJEDA R., RAPPAPORT S., PALLE E., et al.
2015ApJ...814..130M viz 16       D               1 2846 46 An increase in the mass of planetary systems around lower-mass stars. MULDERS G.D., PASCUCCI I. and APAI D.
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.
2014A&A...572A..76V 84         O   C       1 5 19 Dusty tails of evaporating exoplanets. I. Constraints on the dust composition. VAN LIESHOUT R., MIN M. and DOMINIK C.
2014AJ....147..119C viz 16       D               1 8006 55 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...784...40R 1996       S   X C       47 8 55 KOI-2700b–A planet candidate with dusty effluents on a 22 hr orbit. RAPPAPORT S., BARCLAY T., DEVORE J., et al.
2014ApJ...787...47S viz 41           X         1 222 68 A study of the shortest-period planets found with Kepler. SANCHIS-OJEDA R., RAPPAPORT S., WINN J.N., et al.
2014ApJ...788..114R viz 41           X         1 184 17 M-dwarf rapid rotators and the detection of relatively young multiple M-star systems. RAPPAPORT S., SWIFT J., LEVINE A., et al.
2014ApJ...794..133S 16       D               1 41 21 Statistical eclipses of close-in Kepler sub-saturns. SHEETS H.A. and DEMING D.
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.
2013A&A...560A...4R viz 16       D               1 24132 153 Rotation and differential rotation of active Kepler stars. REINHOLD T., REINERS A. and BASRI G.
2013ApJ...775L..11M viz 16       D               1 2010 107 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.
2013MNRAS.436.1883W viz 16       D               1 961 86 Rotation periods, variability properties and ages for Kepler exoplanet candidate host stars. WALKOWICZ L.M. and BASRI G.S.
2012ApJS..199...24T viz 16       D               1 5393 51 Detection of potential transit signals in the first three quarters of Kepler mission data. TENENBAUM P., CHRISTIANSEN J.L., JENKINS J.M., et al.

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2021.09.19-16:17:13

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