A Search for Water in a Super-Earth Atmosphere: High-resolution Optical Spectroscopy of 55Cancri e

We present the analysis of high-resolution optical spectra of four transits of 55Cnc e, a low-density super-Earth that orbits a nearby Sun-like star in under 18 hr. The inferred bulk density of the planet implies a substantial envelope, which, according to mass-radius relationships, could be either...

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Veröffentlicht in:	The Astronomical journal 2017-06, Vol.153 (6), p.268
Hauptverfasser:	Esteves, Lisa J., de Mooij, Ernst J. W., Jayawardhana, Ray, Watson, Chris, de Kok, Remco
Format:	Artikel
Sprache:	eng
Schlagworte:	ABSORPTION ASTROPHYSICS, COSMOLOGY AND ASTRONOMY BULK DENSITY CANADA CORRELATIONS HAWAII MASS MIXING RATIO ORBITS PLANETS planets and satellites: atmospheres planets and satellites: terrestrial planets SATELLITE ATMOSPHERES SATELLITES SCALE HEIGHT SPECTROSCOPY SUN TELESCOPES WATER WATER VAPOR WAVELENGTHS
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container_issue	6
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container_title	The Astronomical journal
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creator	Esteves, Lisa J. de Mooij, Ernst J. W. Jayawardhana, Ray Watson, Chris de Kok, Remco
description	We present the analysis of high-resolution optical spectra of four transits of 55Cnc e, a low-density super-Earth that orbits a nearby Sun-like star in under 18 hr. The inferred bulk density of the planet implies a substantial envelope, which, according to mass-radius relationships, could be either a low-mass extended or a high-mass compact atmosphere. Our observations investigate the latter scenario, with water as the dominant species. We take advantage of the Doppler cross-correlation technique, high-spectral resolution, and the large wavelength coverage of our observations to search for the signature of thousands of optical water absorption lines. Using our observations with HDS on the Subaru telescope and ESPaDOnS on the Canada-France-Hawaii Telescope, we are able to place a 3 lower limit of 10 g mol−1 on the mean-molecular weight of 55Cnc e's water-rich (volume mixing ratio >10%), optically thin atmosphere, which corresponds to an atmospheric scale-height of ∼80 km. Our study marks the first high-spectral resolution search for water in a super-Earth atmosphere, and demonstrates that it is possible to recover known water-vapor absorption signals in a nearby super-Earth atmosphere, using high-resolution transit spectroscopy with current ground-based instruments.
doi_str_mv	10.3847/1538-3881/aa7133
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Using our observations with HDS on the Subaru telescope and ESPaDOnS on the Canada-France-Hawaii Telescope, we are able to place a 3 lower limit of 10 g mol−1 on the mean-molecular weight of 55Cnc e's water-rich (volume mixing ratio >10%), optically thin atmosphere, which corresponds to an atmospheric scale-height of ∼80 km. 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subjects	ABSORPTION ASTROPHYSICS, COSMOLOGY AND ASTRONOMY BULK DENSITY CANADA CORRELATIONS HAWAII MASS MIXING RATIO ORBITS PLANETS planets and satellites: atmospheres planets and satellites: terrestrial planets SATELLITE ATMOSPHERES SATELLITES SCALE HEIGHT SPECTROSCOPY SUN TELESCOPES WATER WATER VAPOR WAVELENGTHS
title	A Search for Water in a Super-Earth Atmosphere: High-resolution Optical Spectroscopy of 55Cancri e
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