2022
DOI: 10.1007/s10686-021-09824-7
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On the synergy between Ariel and ground-based high-resolution spectroscopy

Abstract: Since the first discovery of an extra-solar planet around a main-sequence star, in 1995, the number of detected exoplanets has increased enormously. Over the past two decades, observational instruments (both onboard and on ground-based facilities) have revealed an astonishing diversity in planetary physical features (i. e. mass and radius), and orbital parameters (e.g. period, semi-major axis, inclination). Exoplanetary atmospheres provide direct clues to understand the origin of these differences through thei… Show more

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Cited by 7 publications
(2 citation statements)
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“…Characterization of exo-atmospheres is still a rapidly developing discipline. The telescopes such as JWST or Ariel and beyond (Tinetti et al, 2018) will fill this gap mainly by observation of atmospheric spectral imprints (Guilluy et al, 2022). In spite of the wealth of information to be returned by these spacecrafts, ground based experimental support will be needed in order to create a spectral and chemical knowledge for supporting the characterization of exoplanets as well as to learn more about geochemistry of interplanetary space, more details about primordial highly dynamic nebular accretion processes, planetary evolution, origin of life and its evolution, and finally the potential of mineral resources for metals and rare elements.…”
Section: Future Applications Of High-power Lasersmentioning
confidence: 99%
“…Characterization of exo-atmospheres is still a rapidly developing discipline. The telescopes such as JWST or Ariel and beyond (Tinetti et al, 2018) will fill this gap mainly by observation of atmospheric spectral imprints (Guilluy et al, 2022). In spite of the wealth of information to be returned by these spacecrafts, ground based experimental support will be needed in order to create a spectral and chemical knowledge for supporting the characterization of exoplanets as well as to learn more about geochemistry of interplanetary space, more details about primordial highly dynamic nebular accretion processes, planetary evolution, origin of life and its evolution, and finally the potential of mineral resources for metals and rare elements.…”
Section: Future Applications Of High-power Lasersmentioning
confidence: 99%
“…Characterization of exo-atmospheres is still a rapidly developing discipline. The telescopes such as JWST or Ariel and beyond (Tinetti et al, 2018) will fill this gap mainly by observation of atmospheric spectral imprints (Guilluy et al, 2022). In spite of the wealth of information to be returned by these spacecrafts, ground based experimental support will be needed in order to create a spectral and chemical knowledge for supporting the characterization of exoplanets as well as to learn more about geochemistry of interplanetary space, more details about primordial highly dynamic nebular accretion processes, planetary evolution, origin of life and its evolution, and finally the potential of mineral resources for metals and rare elements.…”
Section: Future Applications Of High-power Lasersmentioning
confidence: 99%