Latest Articles for Turbulence

A study on turbulent fluid behavior using network analysis of VGT.

Research reveals complexities in how Class II stars gather material and form disks.

Study reveals insights on magnetic fields and dust in nearby ISM regions.

Research reveals dynamic processes shaping protoplanetary disks around young stars.

Exploring how heating impacts the transition of magnetic states in planets.

New insights from gas-puff imaging enhance understanding of plasma dynamics in fusion devices.

Magnetic fields play a key role in the formation of stars and galaxies.

Parker Solar Probe reveals key patterns in solar wind fluctuations and their origins.

Parker Solar Probe reveals unique solar wind characteristics impacting space weather.

New findings on electron-only reconnection reveal how plasma behaves under turbulence.

This study reveals new insights into turbulence in space environments.

A look into the formation and significance of small clouds in our climate.

Examining the impact of ITG modes on turbulence in fusion devices.

New designs improve stability and efficiency in fusion energy generation.

Research on convection during neon burning in stars reveals complex dynamics.

A fresh approach to studying magnetic fields in the universe using gradients.

GAMs play a crucial role in plasma behavior and energy confinement in fusion reactors.

Explore the Navier-Stokes equations and their role in fluid behavior.

New devices improve data transmission through turbulent conditions.

Researchers study unexpected behaviors in fluid flows through Euler equations and singularities.

Analyzing solar particles to predict their effects on technology and astronauts.

A deep look into magnetohydrodynamics and its challenges.

Research reveals how circularly polarized waves influence solar wind heating.

Explore the chaotic nature of turbulence and its implications for fluid dynamics.

This study evaluates simulation methods for accurate aircraft lift predictions.

Recent findings reshape our understanding of how star disks form and evolve.

Study reveals how magnetic fields impact star formation in the Sgr B2 region.

The Pade code offers a new way to model turbulence around young stars.

This study focuses on stabilizing fluid waves using time-delayed feedback control.

A new model enhances turbulence predictions in hypersonic conditions with cold-wall effects.

Exploring ionization processes and their role in planet formation within DM Tau.

This study examines how stellar feedback influences star formation in galaxies.

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.