Navid C. Constantinou
Orcid: 0000-0002-8149-4094
According to our database1,
Navid C. Constantinou
authored at least 30 papers
between 2021 and 2025.
Collaborative distances:
Collaborative distances:
Timeline
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Online presence:
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on orcid.org
On csauthors.net:
Bibliography
2025
OceanBioME.jl: A flexible environment for modelling the coupled interactions between ocean biogeochemistry and physics.
Dataset, May, 2025
OceanBioME.jl: A flexible environment for modelling the coupled interactions between ocean biogeochemistry and physics.
Dataset, April, 2025
OceanBioME.jl: A flexible environment for modelling the coupled interactions between ocean biogeochemistry and physics.
Dataset, March, 2025
OceanBioME.jl: A flexible environment for modelling the coupled interactions between ocean biogeochemistry and physics.
Dataset, January, 2025
OceanBioME.jl: A flexible environment for modelling the coupled interactions between ocean biogeochemistry and physics.
Dataset, January, 2025
2024
OceanBioME.jl: A flexible environment for modelling the coupled interactions between ocean biogeochemistry and physics.
Dataset, December, 2024
OceanBioME.jl: A flexible environment for modelling the coupled interactions between ocean biogeochemistry and physics.
Dataset, October, 2024
OceanBioME.jl: A flexible environment for modelling the coupled interactions between ocean biogeochemistry and physics.
Dataset, October, 2024
OceanBioME.jl: A flexible environment for modelling the coupled interactions between ocean biogeochemistry and physics.
Dataset, October, 2024
OceanBioME.jl: A flexible environment for modelling the coupled interactions between ocean biogeochemistry and physics.
Dataset, October, 2024
OceanBioME.jl: A flexible environment for modelling the coupled interactions between ocean biogeochemistry and physics.
Dataset, October, 2024
OceanBioME.jl: A flexible environment for modelling the coupled interactions between ocean biogeochemistry and physics.
Dataset, September, 2024
OceanBioME.jl: A flexible environment for modelling the coupled interactions between ocean biogeochemistry and physics.
Dataset, August, 2024
OceanBioME.jl: A flexible environment for modelling the coupled interactions between ocean biogeochemistry and physics.
Dataset, July, 2024
OceanBioME.jl: A flexible environment for modelling the coupled interactions between ocean biogeochemistry and physics.
Dataset, July, 2024
OceanBioME.jl: A flexible environment for modelling the coupled interactions between ocean biogeochemistry and physics.
Dataset, July, 2024
OceanBioME.jl: A flexible environment for modelling the coupled interactions between ocean biogeochemistry and physics.
Dataset, March, 2024
OceanBioME.jl: A flexible environment for modelling the coupled interactions between ocean biogeochemistry and physics.
Dataset, March, 2024
OceanBioME.jl: A flexible environment for modelling the coupled interactions between ocean biogeochemistry and physics.
Dataset, January, 2024
SpeedyWeather.jl: Reinventing atmospheric general circulation models towards interactivity and extensibility.
J. Open Source Softw., 2024
regional-mom6: A Python package for automatic generation of regional configurations for the Modular Ocean Model 6.
J. Open Source Softw., 2024
2023
OceanBioME.jl: A flexible environment for modelling the coupled interactions between ocean biogeochemistry and physics.
Dataset, December, 2023
OceanBioME.jl: A flexible environment for modelling the coupled interactions between ocean biogeochemistry and physics.
J. Open Source Softw., November, 2023
OceanBioME.jl: A flexible environment for modelling the coupled interactions between ocean biogeochemistry and physics.
Dataset, November, 2023
OceanBioME.jl: A flexible environment for modelling the coupled interactions between ocean biogeochemistry and physics.
Dataset, November, 2023
OceanBioME.jl: A flexible environment for modelling the coupled interactions between ocean biogeochemistry and physics.
Dataset, October, 2023
OceanBioME.jl: A flexible environment for modelling the coupled interactions between ocean biogeochemistry and physics.
Dataset, October, 2023
Oceananigans.jl: A model that achieves breakthrough resolution, memory and energy efficiency in global ocean simulations.
CoRR, 2023
2022
2021
GeophysicalFlows.jl: Solvers for geophysical fluid dynamics problems in periodic domains on CPUs & GPUs.
J. Open Source Softw., 2021