HATS-18b , the SIMBAD biblio

HATS-18b , the SIMBAD biblio (29 results) C.D.S. - SIMBAD4 rel 1.8 - 2022.11.30CET15:08:47


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Title First 3 Authors
2016AJ....152..127P viz 430 T   A     X C       9 19 13
HATS-18b: an extreme short-period massive transiting planet spinning up its star.
PENEV K., HARTMAN J.D., BAKOS G.A., et al.
2016AJ....152..161D viz 41           X         1 13 4 HATS-31b through HATS-35b: five transiting hot Jupiters discovered by the HATSouth survey. DE VAL-BORRO M., BAKOS G.A., BRAHM R., et al.
2016AJ....152..182H viz 16       D               1 205 18 HAT-P-65b and HAT-P-66b: two transiting inflated hot Jupiters and observational evidence for the reinflation of close-in giant planets. HARTMAN J.D., BAKOS G.A., BHATTI W., et al.
2017AJ....153...97O 82           X         2 11 10 KELT-16b: a highly irradiated, ultra-short period hot Jupiter nearing tidal disruption. OBERST T.E., RODRIGUEZ J.E., COLON K.D., et al.
2018AJ....155...79H viz 42           X         1 25 2 HATS-50b through HATS-53b: four transiting hot Jupiters orbiting G-type stars discovered by the HATSouth survey. HENNING T., MANCINI L., SARKIS P., et al.
2018MNRAS.476.2542C 42           X         1 36 8 Hierarchical Bayesian calibration of tidal orbit decay rates among hot Jupiters. COLLIER CAMERON A. and JARDINE M.
2018MNRAS.478.1763L viz 17       D               1 518 2 The detectability of radio emission from exoplanets. LYNCH C.R., MURPHY T., LENC E., et al.
2018MNRAS.473.1801G 17       D               1 78 1 Exoplanet phase curves at large phase angles. Diagnostics for extended hazy atmospheres. GARCIA MUNOZ A. and CABRERA J.
2019A&A...621A.117A 43           X         1 11 ~ Detectability of shape deformation in short-period exoplanets. AKINSANMI B., BARROS S.C.C., SANTOS N.C., et al.
2019ApJ...874L..31T viz 17       D               1 403 ~ Connecting giant planet atmosphere and interior modeling: constraints on atmospheric metal enrichment. THORNGREN D. and FORTNEY J.J.
2019A&A...624A..62M viz 43           X         1 16 ~ Low albedos of hot to ultra-hot Jupiters in the optical to near-infrared transition regime. MALLONN M., KOHLER J., ALEXOUDI X., et al.
2019AJ....158...39C 639     A D S   X C       14 15 ~ Precise photometric transit follow-up observations of five close-in exoplanets: update on their physical properties. CHAKRABARTY A. and SENGUPTA S.
2019AJ....158...59S viz 17       D               2 109 ~ Autoregressive planet search: feasibility study for irregular time series. STUHR A.M., FEIGELSON E.D., CACERES G.A., et al.
2019A&A...630A.135U viz 17       D               1 501 ~ Beyond the exoplanet mass-radius relation. ULMER-MOLL S., SANTOS N.C., FIGUEIRA P., et al.
2019MNRAS.489.4125V 43           X         1 13 ~ NGTS-6b: an ultrashort period hot-Jupiter orbiting an old K dwarf. VINES J.I., JENKINS J.S., ACTON J.S., et al.
2020AJ....159...41T viz 17       D               1 564 ~ Estimating planetary mass with deep learning. TASKER E.J., LANEUVILLE M. and GUTTENBERG N.
2020ApJ...890...23L viz 44           X         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.
2020AJ....159..150P viz 192       D S     C       5 33 ~ The continuing search for evidence of tidal orbital decay of hot Jupiters. PATRA K.C., WINN J.N., HOLMAN M.J., et al.
2020MNRAS.493..126M 148       D     X         4 25 ~ NGTS-10b: the shortest period hot Jupiter yet discovered. McCORMAC J., GILLEN E., JACKMAN J.A.G., et al.
2020MNRAS.493..427M 44           X         1 6 ~ Secular evolution of close-in planets: the effects of general relativity. MARZARI F. and NAGASAWA M.
2020A&A...639A..76N 44           X         1 23 ~ Three short-period Jupiters from TESS. HIP 65Ab, TOI-157b, and TOI-169b. NIELSEN L.D., BRAHM R., BOUCHY F., et al.
2020MNRAS.498.2270B 104       D     X         3 23 ~ Tidal dissipation in evolving low-mass and solar-type stars with predictions for planetary orbital decay. BARKER A.J.
2021AJ....162...18S 45           X         1 10 ~ Multiband transit follow-up observations of five hot Jupiters with critical noise treatments: improved physical properties. SAHA S., CHAKRABARTY A. and SENGUPTA S.
2021ApJ...914...56A 134           X C       2 55 ~ On a possible solution to the tidal realignment problem for hot Jupiters. ANDERSON K.R., WINN J.N. and PENEV K.
2021ApJ...918...16M 152       D     X         4 15 ~ Orbital decay of short-period exoplanets via tidal resonance locking. MA L. and FULLER J.
2021ApJ...919..138T 45           X         1 11 ~ Further evidence for tidal spin-up of hot Jupiter host stars. TEJADA AREVALO R.A., WINN J.N. and ANDERSON K.R.
2021AJ....162..263H viz 18       D               1 346 ~ A uniform search for nearby planetary companions to hot Jupiters in TESS data reveals hot Jupiters are still lonely. HORD B.J., COLON K.D., KOSTOV V., et al.
2022AJ....163..228P viz 233           X         5 72 ~ Empirical Limb-darkening Coefficients and Transit Parameters of Known Exoplanets from TESS. PATEL J.A. and ESPINOZA N.
2022AJ....164..198M 47           X         1 18 ~ Revisiting the Transit Timing Variations in the TrES-3 and Qatar-1 Systems with TESS Data. MANNADAY V.K., THAKUR P., SOUTHWORTH J., et al.

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2022.11.30-15:08:47

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