AK
Member Since 2001
Amy M. Keesee
Associate Professor, University of New Hampshire Main Campus
AGU Research
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Modeling whole spectrum of precipitating electrons and ions using Machine Learning technique
AGU 2024
spa-aeronomy | 13 december 2024
Sai Gowtam Valluri, Hyunju K. Connor, Dogacan S. O...
The particle precipitation is a key component of the coupling between the Magnetosphere-Ionosphere-Thermosphere (M-I-T) system. It determines high-lat...
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Latitudinal and MLT distribution of dB/dt spikes during geomagnetic storms from 1995 to 2021 during Coronal Mass Ejection and High-Speed Stream events.
AGU 2024
geomagnetism, paleomagnetism and electromagnetism | 12 december 2024
Jose P. Marchezi, Amy M. Keesee, Michael Coughlan,...
Changes in solar wind flow, often linked to interplanetary coronal mass ejections (ICME) or high-speed streams (HSS), directly affect the near-Earth s...
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Global View of Magnetosphere Ionosphere Coupling Using Energetic Neutral Atoms and Network Analysis.
AGU 2024
spa-aeronomy | 12 december 2024
Mayowa Adewuyi, Amy M. Keesee, Banafsheh Ferdousi
Understanding the coupling of the magnetosphere with the ionosphere is one of the core areas of research in the field, and this is highly reliant on i...
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Following Ions From the Magnetotail to the Inner Magnetosphere
AGU 2024
spa-aeronomy | 12 december 2024
Richard Gorby, Amy M. Keesee, Joel Tibbetts
The transport of particles from the magnetotail to the inner magnetosphere can be driven by magnetic reconnection. Narrow flow channels and bursty bul...
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Educating and Engaging a Diverse Community for Geospace Science: Efforts by the NASA DRIVE Center for Geospace Storms
AGU 2024
education | 11 december 2024
Amy M. Keesee, Viacheslav G. Merkin, Michael J. Wi...
Engaging the public in and recruiting students to Heliophysics in general, and Geospace Science specifically, is a challenge because these names arent...
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Advances in Understanding Stormtime Magnetotail Dynamics
AGU 2024
spa-magnetospheric physics | 11 december 2024
Savvas Raptis, Viacheslav G. Merkin, Anthony Sciol...
The Center for Geospace Storms (CGS) is dedicated to advancing our understanding of stormtime dynamics within geospace. Through the development of the...
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Probabilistic Predictions of Geomagnetic Field Perturbations and Using Explainability Methods to Uncover Drivers of the Localization Effect
AGU 2024
nonlinear geophysics | 11 december 2024
Michael Coughlan, Amy M. Keesee, Victor A. Pinto, ...
Rapid changes in the ground magnetic field (dB/dt) can lead to Geomagnetically Induced Currents (GICs) in conducting infrastructure. The extensive tim...
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Out with the Old, In with the New: Incorporating Recent Storm Data to Refine Forecasting Intense Geomagnetic Storms
AGU 2024
spa-magnetospheric physics | 10 december 2024
Amanda Flores, Michael Coughlan, Raman Mukundan, V...
Geomagnetically induced currents (GICs) arise due to the solar wind interaction with the magnetosphere and ionosphere. When GICs are strong enough, th...
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