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Showing 1–6 of 6 results
Advanced filters: Author: Arrate Antuñano Clear advanced filters

  • Torsional waves extend into the deep interior of Jupiter where they can modulate the outgoing heat flux and couple with Jupiter’s weather layer to generate the observed quasi-periodic oscillations in the cloud deck. Such waves can be used to explore the interior structure of gas giants.

    • Kumiko Hori
    • Chris A. Jones
    • Steven M. Tobias
    Research
    Nature Astronomy
    Volume: 7, P: 825-835

  • Infrared observations of Jupiter obtained in a 40-yr timespan between 1978 and 2019 show long-term variations of Jupiter’s tropospheric temperature with different periodicities, particularly at tropical latitudes, which often bear some connection with stratospheric temperature fluctuations.

    • Glenn S. Orton
    • Arrate Antuñano
    • Laura E. Wakefield
    Research
    Nature Astronomy
    Volume: 7, P: 190-197

  • James Webb Space Telescope observations of Jupiter have unveiled the presence of a narrow and intense atmospheric jet in the equator of the planet near the tropopause. The jet’s speed of 500 km h−1 doubles the speed of the lower clouds. This new jet aligns with temperature and wind oscillations in Jupiter’s stratosphere.

    • Ricardo Hueso
    • Agustín Sánchez-Lavega
    • Kunio M. Sayanagi
    ResearchOpen Access
    Nature Astronomy
    Volume: 7, P: 1454-1462

  • Multi-decade observations of Jupiter’s stratospheric temperatures show that their quasiperiodic oscillation locked into a new period after a major atmospheric perturbation in 1992, from 5.7 years to 3.9 years. This is different from Earth (and presumably from Saturn), where the period returned to its original value after substantial atmospheric disruptions.

    • Arrate Antuñano
    • Richard G. Cosentino
    • Glenn S. Orton
    Research
    Nature Astronomy
    Volume: 5, P: 71-77