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TOI-1627b , the SIMBAD biblio (33 results) | C.D.S. - SIMBAD4 rel 1.8 - 2024.04.25CEST02:25:05 |
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 |
---|---|---|---|---|---|---|---|---|---|
2011PASP..123..412W | 15 | D | 1 | 2897 | 398 | The Exoplanet Orbit Database. | WRIGHT J.T., KAKHOURI O., MARCY G.W., et al. | ||
2013ApJ...764...18L | 16 | D | 1 | 174 | 6 | Pulsation frequencies and modes of giant exoplanets. | LE BIHAN B. and BURROWS A. | ||
2013A&A...549A.134H | 415 | T A | O X | 10 | 21 | 104 |
WASP-52b, WASP-58b, WASP-59b, and WASP-60b: four new transiting close-in giant planets. |
HEBRARD G., COLLIER CAMERON A., BROWN D.J.A., et al. | |
2013ApJ...766....9S | 16 | D | 1 | 538 | 31 | An ultraviolet investigation of activity on exoplanet host stars. | SHKOLNIK E.L. | ||
2013ApJ...767L..24D | 80 | C | 1 | 45 | 181 | Giant planets orbiting metal-rich stars show signatures of planet-planet interactions. | DAWSON R.I. and MURRAY-CLAY R.A. | ||
2013A&A...552A.119S | 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. | ||
2014MNRAS.445.4395Y | 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. | ||
2014A&A...572A..51F | 16 | D | 1 | 111 | 15 | Revisiting the correlation between stellar activity and planetary surface gravity. | FIGUEIRA P., OSHAGH M., ADIBEKYAN V.Z., 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. | ||
2015A&A...575A..23W | 40 | X | 1 | 53 | 15 | A Lucky Imaging search for stellar companions to transiting planet host stars. | WOELLERT M., BRANDNER W., BERGFORS C., et al. | ||
2016ApJ...827....8N | 18 | D | 5 | 43 | 105 | Friends of hot jupiters. IV. Stellar companions beyond 50 au might facilitate giant planet formation, but most are unlikely to cause Kozai-Lidov migration. | NGO H., KNUTSON H.A., HINKLEY S., et al. | ||
2016AJ....152..182H | 16 | D | 1 | 205 | 26 | 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. | ||
2017ApJ...834...17C | 17 | D | 1 | 290 | 454 | Probabilistic forecasting of the masses and radii of other worlds. | CHEN J. and KIPPING D. | ||
2017A&A...602A.107B | 16 | D | 3 | 476 | 185 | The GAPS Programme with HARPS-N at TNG. XIV. Investigating giant planet migration history via improved eccentricity and mass determination for 231 transiting planets. | BONOMO A.S., DESIDERA S., BENATTI S., et al. | ||
2018MNRAS.478.1763L | 16 | D | 1 | 518 | 9 | The detectability of radio emission from exoplanets. | LYNCH C.R., MURPHY T., LENC E., et al. | ||
2018ApJS..239...14J | 16 | D | 1 | 1561 | 6 | Revised exoplanet radii and habitability using Gaia data release 2. | JOHNS D., MARTI C., HUFF M., et al. | ||
2019A&A...622A..81M | 309 | D | X C F | 6 | 39 | 22 | Ephemeris refinement of 21 hot Jupiter exoplanets with high timing uncertainties. | MALLONN M., VON ESSEN C., HERRERO E., et al. | |
2019ApJ...874L..31T | 17 | D | 1 | 403 | 62 | Connecting giant planet atmosphere and interior modeling: constraints on atmospheric metal enrichment. | THORNGREN D. and FORTNEY J.J. | ||
2019AJ....157..242E | 17 | D | 1 | 371 | 71 | An updated study of potential targets for Ariel. | EDWARDS B., MUGNAI L., TINETTI G., et al. | ||
2019A&A...630A.135U | 17 | D | 1 | 501 | 16 | Beyond the exoplanet mass-radius relation. | ULMER-MOLL S., SANTOS N.C., FIGUEIRA P., et al. | ||
2020AJ....159...41T | 17 | D | 1 | 564 | ~ | Estimating planetary mass with deep learning. | TASKER E.J., LANEUVILLE M. and GUTTENBERG N. | ||
2020A&A...634A..60Z | 17 | D | 1 | 47 | ~ | Orbit classification in exoplanetary systems. | ZOTOS E.E., ERDI B., SAEED T., et al. | ||
2021A&A...645A...7K | 17 | D | 1 | 1569 | 17 | Determining the true mass of radial-velocity exoplanets with Gaia. Nine planet candidates in the brown dwarf or stellar regime and 27 confirmed planets. | KIEFER F., HEBRARD G., LECAVELIER DES ETANGS A., et al. | ||
2021ApJS..254...39G | 17 | D | 1 | 2256 | 165 | The TESS Objects of Interest Catalog from the TESS Prime Mission. | GUERRERO N.M., SEAGER S., HUANG C.X., et al. | ||
2022PASP..134b4401Y | 45 | X | 1 | 6 | 4 | Transit timing variation of XO-3b: evidence for tidal evolution of hot Jupiter with high eccentricity. | YANG F. and WEI X. | ||
2022ApJS..258...40K | 18 | D | 1 | 180 | 21 | ExoClock Project. II. A Large-scale Integrated Study with 180 Updated Exoplanet Ephemerides. | KOKORI A., TSIARAS A., EDWARDS B., et al. | ||
2022AJ....164...15E | 18 | D | 1 | 514 | 13 | The Ariel Target List: The Impact of TESS and the Potential for Characterizing Multiple Planets within a System. | EDWARDS B. and TINETTI G. | ||
2022ApJS..261...26S | 18 | D | 2 | 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. | ||
2022AJ....164..259Y | 45 | X | 1 | 6 | 1 | Tentative Evidence for Transit-timing Variations of WASP-161b. | YANG F. and CHARY R.-R. | ||
2023ApJS..264...37S | 19 | D | 2 | 38 | 8 | TESS Timings of 31 Hot Jupiters with Ephemeris Uncertainties. | SHAN S.-S., YANG F., LU Y.-J., et al. | ||
2023AJ....165...82J | 47 | X | 1 | 167 | 3 | Statistical Analysis of the Dearth of Super-eccentric Jupiters in the Kepler Sample. | JACKSON J.M., DAWSON R.I., QUARLES B., et al. | ||
2023ApJS..265....4K | 19 | D | 1 | 454 | 2 | ExoClock Project. III. 450 New Exoplanet Ephemerides from Ground and Space Observations. | KOKORI A., TSIARAS A., EDWARDS B., et al. | ||
2024ApJS..270...14W | 20 | D | 1 | 333 | ~ | Long-term Variations in the Orbital Period of Hot Jupiters from Transit-timing Analysis Using TESS Survey Data. | WANG W., ZHANG Z., CHEN Z., et al. |