Member Since 2000
Baylor Fox-Kemper
Professor of Earth, Environmental, and Planetary Sciences, Brown University
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Machine Learning Emulator for Localized Sea Level Prediction and Forecasting
AI-DRIVEN INNOVATIONS IN EARTH AND CLIMATE SCIENCES III POSTER
atmospheric sciences | 13 december 2024
Hilarie Sit, Baylor Fox-Kemper, Karianne J. Bergen
As sea levels rise and storm frequency increases due to climate change, waterfront communities in New England have become increasingly vulnerable to e...
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Investigating the Seasonality of the Ocean's Inverse Kinetic Energy Cascade using a Quasigeostrophic Model with Time-Dependent Stratification
GEOPHYSICAL FLUID DYNAMICS I ORAL
nonlinear geophysics | 12 december 2024
Houssam Yassin, Baylor Fox-Kemper, Ian Grooms
Upper ocean submesoscale dynamics (with horizontal length scales between 1-100 km) are largely unresolved by climate models. These small-scale current...
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ISEFlow: Emulating Sea Level Rise using a Hybrid Flow-Based Neural Network Architecture
ADVANCES IN EMULATING EARTH SYSTEM MODELS I POSTER
global environmental change | 09 december 2024
Peter Van Katwyk, Baylor Fox-Kemper, Helene L. Ser...
Emulating ice sheet dynamics is crucial for understanding and predicting sea level rise. Ice sheet models, like those included in the Ice Sheet Interc...
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Understanding and Predicting Compound Flooding Events on the East Coast of North America
ATLANTIC CLIMATE VARIABILITY AND CHANGE: MECHANISMS, PREDICTABILITY, AND IMPACTS III POSTER
ocean sciences | 09 december 2024
Pierre Chabert, Emanuele Di Lorenzo, Chiara Galeot...
A significant portion of the human population resides in coastal regions, often characterized by low-lying and densely populated areas, such as the ap...
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Scale‐Dependent Vertical Heat Transport Inferred From Quasi‐Synoptic Submesoscale‐Resolving Observations
GEOPHYSICAL RESEARCH LETTERS
16 june 2024
Haijin Cao, Zhiyou Jing, Baylor Fox-Kemper
Oceanic motions across meso‐, submeso‐, and turbulent scales play distinct roles in vertical heat transport (VHT) between the ocean's s...
Internal Versus Forced Variability Metrics for General Circulation Models Using Information Theory
JOURNAL OF GEOPHYSICAL RESEARCH: OCEANS
20 may 2024
Aakash Sane, Baylor Fox-Kemper, David S. Ullman
Ocean model simulations show variability due to intrinsic chaos and external forcing (air‐sea fluxes, river input, etc.). It is important to ...
Floe-scale effects on ice-ocean boundary layer turbulence
SEA ICE–OCEAN INTERACTIONS AT SMALL SCALES IN POLAR REGIONS II ORAL
physical oceanography: mesoscale and smaller | 22 february 2024
Samuel Brenner, Christopher Horvat, Paull Hall, An...
Sea ice modelling traditionally relies on continuum viscous-plastic fluid descriptions, which may not adequately capture the complexities of the fragm...
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Energy, PV, cascades: how to do them and why to care
MULTISCALE EDDY DYNAMICS AND TRACER TRANSPORT: BRIDGING OBSERVATIONS, THEORY, AND MODELING III ORAL
physical oceanography: mesoscale and larger | 22 february 2024
Baylor Fox-Kemper, Momme C. Hell, Christopher Horv...
There are a variety of budgets in oceanography and climate useful for process diagnosis and parameterization evaluation. Some are directly solved by m...
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