Latest Articles for Turbulence

Research reveals how galaxy movements impact star formation in molecular clouds.

Exploring how turbulence affects gas behavior in galaxy surroundings.

Exploring the unique behavior of gas around supermassive black holes.

New approach improves turbulence simulation using deep learning and physics-based methods.

Research reveals insights into plasma behavior for improved fusion energy production.

Exploring the impact of simulations on understanding diffuse molecular clouds.

This article examines how turbulence affects the interaction between bubbles and particles.

Exploring how material behaves around black holes and its implications.

Researchers investigate small-scale magnetic reconnection, revealing insights into electron behavior.

Examining how magnetic activity influences sound wave heights in stars.

Learn how DESI overcomes atmospheric turbulence for precise astronomical measurements.

Scientists unveil a new equation for turbulence in quantum systems.

Exploring the behavior and patterns of wave turbulence in various systems.

Research sheds light on solar flare dynamics and particle acceleration mechanisms.

Modeling the scrape-off layer in W7-X enhances fusion energy research.

This study examines turbulence in fluid flow between two rotating spheres.

This research examines how triangularity influences turbulence in tokamak plasma.

A look into the behavior of binary fluid mixtures and their turbulence.

Turbulence helps maintain the unstable neutral medium in galaxies, influencing their evolution.

A deep look into fluid behavior near surfaces under turbulence.

Learn how submesoscale filaments influence ocean movement and marine ecosystems.

This article examines breather gas fission in nonlinear wave systems and its implications.

Study reveals how surface roughness affects air behavior at high speeds.

A look at how bubbles influence fluid behavior and turbulence.

Introducing a method to enhance turbulence measurement and infrared image clarity.

An overview of the complexities in modeling neutron star merger events.

This article highlights zonal-flow residuals' impact on plasma stability in fusion devices.

Study reveals how disturbances affect energy loss in pair plasma magnetic reconnection.

Examining how magnetic fields are generated and sustained in astrophysical systems.

Study links gas speed with star formation in ancient-like galaxies.

Magnetic fields significantly influence star formation and gas dynamics in galaxies.

Research examines turbulent behavior in atomic BECs and its similarity to classical fluids.

Examining how polarized light reveals the dynamics of magnetic fields in astrophysical environments.

This study examines the behavior and dynamics of dusty plasmas and turbulence.

Exploring how drift waves and zonal flows affect plasma stability and confinement.

A new approach to understanding cold gas clouds and star formation in galaxies.

A study on methods to estimate turbulence strength from video footage.

This article discusses advanced methods for studying air pollution dispersion.

This study examines how impurities impact vortex lattices in rotating Bose-Einstein condensates.

New devices aim to enhance starlight collection in ground-based telescopes.