RF
Member Since 2003
Raffaele M. Ferrari
Professor, Massachusetts Institute of Technology
AGU Research
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A novel momentum advection scheme for mesoscale ocean large-eddy simulations with no explicit dissipation
OCEAN SCIENCES 2024
digital ocean | 23 february 2024
Simone Silvestri, Siddhartha Bishnu, Jean-Michel C...
Current eddy-permitting and eddy-resolving ocean models require explicit dissipation to prevent a spurious accumulation of enstrophy at the grid scale...
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Oceananigans: Ocean modeling for the 21st century
OCEAN SCIENCES 2024
digital ocean | 23 february 2024
Raffaele M. Ferrari, Siddhartha Bishnu, Lucy Brock...
Geostrophic eddies exert a strong control on the ocean uptake of heat and carbon, but they have proved hard to accurately parameterize in climate simu...
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A theory for the middepth stratification and overturning
OCEAN SCIENCES 2024
physical oceanography: mesoscale and larger | 23 february 2024
Mason Rogers, Raffaele M. Ferrari, Louis-Philippe ...
The middepth ocean, spanning from 1 to 3 kilometers in depth, is characterized by a remarkably exponential stratification profile. Existing conceptual...
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Features and biases of a new, trainable, mesoscale-resolving global ocean and sea ice climate simulation
OCEAN SCIENCES 2024
climate and ocean change | 22 february 2024
Gregory L. Wagner, Siddhartha Bishnu, Jean-Michel ...
We analyze the features and observational biases of a new, global, coupled ocean and sea ice model called ClimaOcean in a simulation that follows the ...
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Effects of Resolution on the Simulated Climatology of a Turbulence-Resolving Basin-Channel Simulation
OCEAN SCIENCES 2024
physical oceanography: mesoscale and larger | 22 february 2024
Lucy Brock, Andre Souza, Simone Silvestri, Siddhar...
We describe an idealized model for studying the effects of mesoscale ocean turbulence on the large-scale ocean circulation. Using the ocean model Ocea...
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Isotopes constrain biologically enhanced ocean carbon storage at the Last Glacial Maximum
OCEAN SCIENCES 2024
ocean biology and biogeochemistry | 21 february 2024
Anne Willem Omta, Christopher L. Follett, Jonathan...
Understanding what caused the large variations in atmospheric CO2 over the late Pleistocene glacial cycles is an open challenge in paleoclimate resear...
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Mechanism of rapid boundary upwelling along a sloping deep-ocean canyon
OCEAN SCIENCES 2024
physical oceanography: mesoscale and smaller | 21 february 2024
Alberto Naveira Garabato, Carl Spingys, Bethan Wyn...
Recent theoretical studies have hypothesized that deep-ocean upwelling may be primarily sustained by mixing processes within a thin bottom boundary la...
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A Conformal Cubed Sphere without Small Corner Cells
OCEAN SCIENCES 2024
digital ocean | 20 february 2024
Siddhartha Bishnu, Jean-Michel Campin, Navid Const...
The cubed sphere offers a layout that circumvents the pole singularities encountered in latitude-longitude grids. Among the mostly used cubed sphere c...
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