HyDRA-H: Simultaneous Hybrid Retrieval of Exoplanetary Emission Spectra

High-resolution Doppler spectroscopy has been used to detect several chemical species in exoplanetary atmospheres. Such detections have traditionally relied on cross correlation of observed spectra against spectral model templates, an approach that is successful for detecting chemical species but no...

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Veröffentlicht in:	The Astronomical journal 2019-12, Vol.158 (6), p.228
Hauptverfasser:	Gandhi, Siddharth, Madhusudhan, Nikku, Hawker, George, Piette, Anjali
Format:	Artikel
Sprache:	eng
Schlagworte:	Abundance Astronomy Atmosphere Atmospheres Bayesian analysis Chemical speciation Correlation Cross correlation Emission analysis Emission spectra Exoplanet atmospheres Exoplanet atmospheric composition Exoplanets Extrasolar planets Gas giant planets High resolution High resolution spectroscopy Hot Jupiters Jupiter Mapping Organic chemistry Photometry Photosphere Planetary atmospheres Retrieval Spectroscopy Spectrum analysis Temperature profiles Thermal emission
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description	High-resolution Doppler spectroscopy has been used to detect several chemical species in exoplanetary atmospheres. Such detections have traditionally relied on cross correlation of observed spectra against spectral model templates, an approach that is successful for detecting chemical species but not optimized for constraining abundances. Recent work has explored ways to perform atmospheric retrievals on high-resolution spectra (HRS) and combine them with retrievals routinely performed for low-resolution spectra (LRS) by developing a mapping from the cross-correlation function to a likelihood metric. We build upon previous studies and report HyDRA-H, a hybrid retrieval code for simultaneous analysis of low- and high- resolution thermal emission spectra of exoplanets in a fully Bayesian approach. We demonstrate HyDRA-H on the hot Jupiter HD 209458b as a case study. We validate our HRS retrieval capability by confirming previous results and report a simultaneous hybrid retrieval using both HRS and LRS data. The LRS data span the HST WFC3 (1.1-1.7 m) and Spitzer photometry (IRAC 3.6-8 m) bands, while the HRS data were obtained with CRIRES on VLT at 2.3 m. The constraints on the composition and temperature profiles for the hybrid retrieval are more stringent than retrievals with either LRS or HRS data sets individually. We retrieve abundances of and , and C/O = , consistent with previous works. We constrain the photospheric temperature to be K, consistent with the equilibrium temperature. Our results demonstrate the significant advantages of hybrid retrievals by combining strengths of both HRS and LRS observations, which probe complementary aspects of exoplanetary atmospheres.
doi_str_mv	10.3847/1538-3881/ab4efc
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subjects	Abundance Astronomy Atmosphere Atmospheres Bayesian analysis Chemical speciation Correlation Cross correlation Emission analysis Emission spectra Exoplanet atmospheres Exoplanet atmospheric composition Exoplanets Extrasolar planets Gas giant planets High resolution High resolution spectroscopy Hot Jupiters Jupiter Mapping Organic chemistry Photometry Photosphere Planetary atmospheres Retrieval Spectroscopy Spectrum analysis Temperature profiles Thermal emission
title	HyDRA-H: Simultaneous Hybrid Retrieval of Exoplanetary Emission Spectra
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