Latest Articles for Oceanography

Explore how salt and humidity influence thin liquid films and their impact on our climate.

The JAW system advances the study of internal solitary waves in ocean environments.

Learn how ocean currents like the Gulf Stream function and their impact.

Deep learning improves climate models by better capturing small ocean processes.

Exploring internal wave behavior in layered fluids influenced by surface tension.

A look at how melting ice affects ocean dynamics and climate change.

Learn how ocean currents create magnetic signals affecting our climate.

This study examines how ice floes interact with ocean eddies in the Arctic.

Ocean bubbles release droplets that influence weather patterns and climate.

Learn how ocean currents influence climate, weather, and marine life.

Learn how the Senseiver enhances tsunami forecasts using limited data.

Explore how sound travels and is measured beneath the sea.

Research shows how salts affect bubble size and drag reduction in ships.

Learn about Wilton ripples and their connection to the Kawahara equation.

Exploring the effects of baroclinic turbulence on climate and weather prediction.

Learn how water waves form and interact over time.

Internal tides are crucial ocean waves that occur beneath the surface.

A fresh approach improves long-term wave forecasting accuracy.

New deep learning techniques improve sea surface temperature measurements despite cloud cover challenges.

Discover the fascinating world of wave behavior and homoclinic orbits.

LD-EnSF enhances data assimilation for complex systems, improving accuracy and efficiency.

Discover how energy flows in layered fluids and impacts our environment.

Discover how fluids move in equatorial regions and their global impact.

Discover how C4PM enhances wave data accuracy for safer navigation and surfing.

A new method improves data assimilation in multi-layer ocean and atmosphere studies.

Discover how researchers use machine learning to understand wave breaking dynamics.

Learn how high-pass filtering reveals energy distributions in turbulent flows.

A fresh approach improves predictions for wind over ocean waves.

Discover how ensemble Kalman filters improve predictions in chaotic systems.

Learn how melting ice blocks can actually move in water.

Discover the surprising world of extreme waves in nature and experiments.

Discover how breathers and solitons shape waves in nature and technology.

Discover how AMOC shapes our climate and ocean life.

LangYa predicts ocean conditions accurately and rapidly for better planning.

Uncover the latest in underwater vehicle technology and exploration.

Multiple AUVs team up to map underwater features more efficiently.

Discover the vital role of wind in driving ocean currents and energy transfer.