Spectral Determination of the Colour and Vertical Structure of Dark Spots in Neptune’S Atmosphere

Spectral Determination of the Colour and Vertical Structure of Dark Spots in Neptune’S Atmosphere

Previous observations of dark vortices in Neptune’s atmosphere, such as Voyager 2’s Great Dark Spot (1989), have been made in only a few broad-wavelength channels, hampering efforts to determine these vortices’ pressure levels and darkening processes. We analyse spectroscopic observations of a dark...

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Veröffentlicht in:Nature astronomy 2023-10, Vol.7 (10), p.1198-1207
Hauptverfasser: Irwin, Patrick G. J., Dobinson, Jack, James, Arjuna, Wong, Michael H., Fletcher, Leigh N., Roman, Michael T., Teanby, Nicholas A., Toledo, Daniel, Orton, Glenn S., Pérez-Hoyos, Santiago, Sánchez-Lavega, Agustin, Sromovsky, Lawrence, Simon, Amy A., Morales-Juberías, Raúl, Pater, Imke de, Cook, Statia L.
Format: Artikel
Sprache:eng
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639/33/445/824
639/33/445/846
Aerosols
Astronomy
Astrophysics and Cosmology
Atmosphere
Hydrogen sulfide
Physics
Physics and Astronomy
Space telescopes
Sublimation
Upwelling
Vortices
Wavelengths
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Zusammenfassung:Previous observations of dark vortices in Neptune’s atmosphere, such as Voyager 2’s Great Dark Spot (1989), have been made in only a few broad-wavelength channels, hampering efforts to determine these vortices’ pressure levels and darkening processes. We analyse spectroscopic observations of a dark spot on Neptune identified by the Hubble Space Telescope as NDS-2018; the spectral observations were made in 2019 by the Multi Unit Spectroscopic Explorer (MUSE) of the Very Large Telescope (Chile). The MUSE medium-resolution 475–933 nm reflection spectra allow us to show that dark spots are caused by darkening at short wavelengths (700 nm). This bright feature is much deeper than previously studied dark-spot companion clouds and may be connected with the circulation that generates and sustains such spots.
ISSN:2397-3366
2397-3366
DOI:10.1038/s41550-023-02047-0