-
Jonathan Snively
Embry-Riddle Aeronautical UniversityMeeting roles in:
Leveraging GNSS TEC Signals to unravel earthquake rupture processes
The quasi-two day wave, gravity waves, and resulting plasma bubble activity over south America linked to lower atmospheric dynamics
Multi-instrument Synoptic Characterization of Deep Convective Events and Associated Gravity Wave Responses Over CONUS Using AWE, AIRS, TEC, and LLITED
Simulating GNSS-derived TEC to uncover the rupture complexity of the 2024 Mw7.5 Noto earthquake
Atmospheric Wave Propagation in Multi-Component Atmospheres: The Role of Species Diffusion
Scalable Modeling of Infrasound Propagation in Realistic Environments from Surface to Exobase
Modeling Thermospheric Responses to Acoustic-Gravity/Gravity Waves Generated by Isolated Thunderstorms
Acoustic Wave Signatures of Earthquake Rupture Dynamics in the Upper Atmosphere
Ionospheric Signatures of SpaceX Falcon 9 Deorbit Maneuvers Over the United States
Immersive ≥3D Representations of Atmospheric Gravity Waves: Bridging Data Complexity and Scientific Insight in Geosciences
Scalable Modeling of Acoustic-Gravity Wave Propagation and Evolutions from Impulsive Sources
Numerical Modeling of Ionospheric Responses to Ground-level, Anthropogenic Sources
Enter Note
Go to previous page in this tab
Author/Chair
