S. Levin Source Confirmed

Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.

High Impact

Researcher

John Brown University

faculty

50 h-index 621 pubs 9,754 cited

Research Areas

Astro and Planetary Science Solar and Space Plasma Dynamics Ionosphere and magnetosphere dynamics Planetary Science and Exploration Space Exploration and Technology

Links

ORCID

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OverviewAI-generated summary

S. Levin is a faculty member at John Brown University whose research encompasses a range of topics within astro and planetary science. Levin's work particularly focuses on solar and space plasma dynamics, as well as the dynamics of the ionosphere and magnetosphere. As a researcher in planetary science and exploration, Levin contributes to our understanding of space exploration and related technologies. Levin's recent work includes investigations of Jupiter's magnetic field, analysis of Jupiter's atmospheric vortices using microwave observations, and an overview of Juno's close encounter with Ganymede. Further research has explored the depth of Jupiter's Great Red Spot using Juno gravity overflights and provided evidence for multiple Ferrel-like cells on Jupiter.

Metrics

  • h-index: 50
  • Publications: 621
  • Citations: 9,754

Selected Publications

  • Probing Jupiter's Atmosphere Through Juno Radio Occultations: Methodology and Initial Observations (2025) DOI
  • Probing Jupiter's Atmosphere Through Juno Radio Occultations: Analysis of the Atmospheric Thermal Structure (2025) DOI
  • Evidence of pure ammonia clouds in Jupiter’s Northern Temperate domain from Juno/JIRAM infrared spectral data (2025) DOI
  • Jupiter's Auroral Ionosphere: Juno Microwave Radiometer Observations of Energetic Electron Precipitation Events (2025) DOI
  • Multi-instrument sounding of a Jovian thunderstorm from Juno (2025) DOI
  • Io’s tidal response precludes a shallow magma ocean (2024) DOI
  • Juno Microwave Radiometer Observations into the Subsurface of the Ice Shells of Io, Europa and Ganymede (2024) DOI
  • Analysis of Jupiter's atmosphere using Juno's radio occultations (2024) DOI
  • Super-adiabatic Temperature Gradient at Jupiter’s Equatorial Zone and Implications for the Water Abundance (2024) DOI
  • Super-adiabatic temperature gradient at Jupiter's equatorial zone and implications for the water abundance (2024) DOI
  • Corresponding Dataset for "Measurements of Europa's Ionosphere from Juno's close flyby" (2023) DOI
  • Juno MWR Alkali Metal Opacity (2023) DOI
  • Radio Occultation Measurements of Europa's Ionosphere From Juno's Close Flyby (2023) DOI
  • Effect of a Magnetospheric Compression on Jovian Radio Emissions: In Situ Case Study Using Juno Data (2023) DOI
  • Highly Depleted Alkali Metals in Jupiter’s Deep Atmosphere (2023) DOI

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