FORS2 observes a multi-epoch transmission spectrum of the hot Saturn-mass exoplanet WASP-49b
暂无分享,去创建一个
M. Lendl | C. Hellier | M. Gillon | E. Jehin | D.Queloz | N. Madhusudhan | L. Delrez | E. Jehin | B. Demory | M. Gillon | L. Delrez | D. Queloz | D. Anderson | N. Madhusudhan | C. Hellier | M. Lendl | D. R. Anderson | B.-O. Demory | D. Anderson
[1] R. G. West,et al. WASP-42 b and WASP-49 b: two new transiting sub-Jupiters , 2012, 1205.2757.
[2] G. Rupprecht,et al. Correction of Field Rotator-Induced Flat-Field Systematics—A Case Study Using Archived VLT-FORS Data , 2010, 1001.1099.
[3] N. Crouzet,et al. WATER VAPOR IN THE SPECTRUM OF THE EXTRASOLAR PLANET HD 189733b. I. THE TRANSIT , 2014, 1407.2462.
[4] Gautam Vasisht,et al. The presence of methane in the atmosphere of an extrasolar planet , 2008, Nature.
[5] Nigel Bannister,et al. Next Generation Transit Survey (NGTS) , 2013, Proceedings of the International Astronomical Union.
[6] R. Gilliland,et al. Detection of an Extrasolar Planet Atmosphere , 2001, astro-ph/0111544.
[7] N. Gibson,et al. Regaining the FORS: optical ground-based transmission spectroscopy of the exoplanet WASP-19b with VLT+FORS2 , 2015, 1503.04155.
[8] Andreas Seifahrt,et al. TRANSMISSION SPECTROSCOPY OF THE HOT JUPITER WASP-12b FROM 0.7 TO 5 μm , 2013, 1305.1670.
[9] L. Koesterke,et al. Sodium Absorption from the Exoplanetary Atmosphere of HD 189733b Detected in the Optical Transmission Spectrum , 2007, 0712.0761.
[10] Sara Seager,et al. THE OPTICAL AND NEAR-INFRARED TRANSMISSION SPECTRUM OF THE SUPER-EARTH GJ 1214b: FURTHER EVIDENCE FOR A METAL-RICH ATMOSPHERE , 2011, 1109.0582.
[11] A. Collier Cameron,et al. The thermal emission of the young and massive planet CoRoT-2b at 4.5 and 8 μm , 2009, 0911.5087.
[12] S. Bloemen,et al. Gravity and limb-darkening coefficients for the Kepler, CoRoT, Spitzer, uvby, UBVRIJHK, and Sloan photometric systems , 2011 .
[13] T. Barman. Identification of Absorption Features in an Extrasolar Planet Atmosphere , 2007, 0704.1114.
[14] K. Ulaczyk,et al. A transiting planet among 23 new near-threshold candidates from the OGLE survey - OGLE-TR-182 , 2007, 0710.5278.
[15] T. Evans,et al. An HST optical-to-near-IR transmission spectrum of the hot Jupiter WASP-19b: detection of atmospheric water and likely absence of TiO , 2013, 1307.2083.
[16] G. Hebrard,et al. Transit spectrophotometry of the exoplanet HD189733b. I. Searching for water but finding haze with HST NICMOS , 2009, 0907.4991.
[17] Andrew Szentgyorgyi,et al. GROUND-BASED TRANSIT SPECTROSCOPY OF THE HOT-JUPITER WASP-19b IN THE NEAR-INFRARED , 2013, 1303.1094.
[18] Mark Clampin,et al. INFRARED TRANSMISSION SPECTROSCOPY OF THE EXOPLANETS HD 209458b AND XO-1b USING THE WIDE FIELD CAMERA-3 ON THE HUBBLE SPACE TELESCOPE , 2013, 1302.1141.
[19] A. D. Etangs,et al. Rayleigh scattering in the transit spectrum of HD 189733b , 2008, 0802.3228.
[20] D. Rubin,et al. Inference from Iterative Simulation Using Multiple Sequences , 1992 .
[21] David Charbonneau,et al. Using Stellar Limb-Darkening to Refine the Properties of HD 209458b , 2006, astro-ph/0603542.
[22] D. Ehrenreich,et al. TiO and VO broad band absorption features in the optical spectrum of the atmosphere of the hot-Jupiter HD 209458b , 2008, 0809.1865.
[23] L. J. Richardson,et al. On the Dayside Thermal Emission of Hot Jupiters , 2005 .
[24] A. Collier Cameron,et al. An improved method for estimating the masses of stars with transiting planets , 2010, 1004.1991.
[25] Nikku Madhusudhan,et al. C/O RATIO AS A DIMENSION FOR CHARACTERIZING EXOPLANETARY ATMOSPHERES , 2012, 1209.2412.
[26] D. Ehrenreich,et al. Gran Telescopio Canarias OSIRIS transiting exoplanet atmospheric survey: detection of potassium in XO-2b from narrowband spectrophotometry , 2010, 1008.4795.
[27] S. Seager,et al. A TEMPERATURE AND ABUNDANCE RETRIEVAL METHOD FOR EXOPLANET ATMOSPHERES , 2009, 0910.1347.
[28] Princeton,et al. Theoretical Transmission Spectra during Extrasolar Giant Planet Transits , 1999, astro-ph/9912241.
[29] B. Enoch,et al. The WASP Project and the SuperWASP Cameras , 2006, astro-ph/0608454.
[30] University of Exeter,et al. A new look at NICMOS transmission spectroscopy of HD 189733, GJ-436 and XO-1: no conclusive evidence for molecular features , 2010, 1010.1753.
[31] Aisey M Andel. ANALYTIC LIGHTCURVES FOR PLANETARY TRANSIT SEARCHES , 2002 .
[32] W. C. Bowman,et al. A high C/O ratio and weak thermal inversion in the atmosphere of exoplanet WASP-12b , 2010, Nature.
[33] Jean Manfroid,et al. TRAPPIST: TRAnsiting Planets and PlanetesImals Small Telescope , 2011 .
[34] E. Agol,et al. Analytic Light Curves for Planetary Transit Searches , 2002, astro-ph/0210099.
[35] David Charbonneau,et al. The transit light curve project. I. Four consecutive transits of the exoplanet XO-1b , 2006 .
[36] S. Aigrain,et al. A Gemini ground-based transmission spectrum of WASP-29b: a featureless spectrum from 515 to 720 nm , 2012, 1210.7798.
[37] Nicolas Crouzet,et al. TRANSMISSION SPECTROSCOPY OF EXOPLANET XO-2b OBSERVED WITH HUBBLE SPACE TELESCOPE NICMOS , 2012, 1210.5275.
[38] Jacob L. Bean,et al. A ground-based transmission spectrum of the super-Earth exoplanet GJ 1214b , 2010, Nature.
[39] A. Collier Cameron,et al. The TRAPPIST survey of southern transiting planets. I. Thirty eclipses of the ultra-short period planet WASP-43 b , 2012, 1201.2789.