Latest Articles for Turbulence

Examining the chaotic environments where stars are born.

This article examines how turbulence and magnetic fields influence star formation rates in galaxies.

Exploring the formation and significance of equatorial jets in weather and climate.

This study examines how energy moves in plasma using simulations.

Exploring how magnetic reconnection accelerates particles in space.

New insights into ion-cyclotron waves and their role in solar wind turbulence.

Investigating how magnetic fields influence galaxy cluster behavior and dynamics.

New insights into active turbulence reveal self-constraint mechanisms in biological materials.

Nine spacecraft team up to study turbulence in space plasma.

This study examines how particles move within turbulent canopy flows.

New method combines machine learning with turbulence modeling for improved simulations.

Studying MBM 40 reveals insights into molecular clouds and gas interactions.

Examining how magnetic fields influence galaxy behavior and formation.

Plasma turbulence influences cosmic environments and energy transfer across various scales.

Study reveals how temperature differences influence particle behavior in turbulent air flows.

This article examines the Blasius boundary layer and its transition to turbulence.

A new technique sheds light on magnetic fields in galaxy clusters.

A new approach to fluid modeling using machine learning and hidden variables.

An overview of how gas pressure affects the formation of planetesimals.

Insights into the dynamics of galaxy clusters through magneto-thermal instability research.

A new method improves fluid simulations with less time and resources.

Engineers use machine learning to improve accuracy in fluid dynamics simulations.

Exploring the interaction between cosmic rays and magnetic fields in space.

Research highlights how Alfvén modes affect plasma turbulence control in tokamaks.

Explore how angular momentum and turbulence influence the life stages of stars.

This article explores how planets move in protoplanetary disks.

An overview of the role of MRI in turbulent accretion disks.

This study reveals how metallicity affects star formation through molecular cloud dynamics.

Understanding how gaps in protoplanetary disks affect material movement and planet formation.

Using machine learning to improve turbulence simulations through superresolution methods.

The influence of Mach number and wall temperature on fluid behavior.

Investigating how channel width affects fluid turbulence characteristics.

This article examines turbulence behavior in rotating fluids with temperature differences.

An overview of turbulent magnetic fields during neutron star collisions.

New insights reveal how solar wind turbulence affects space weather.

A novel approach enhances image clarity through turbulence in air and water.

Examining how magnetic fields affect the mixing and growth of cold gas in turbulence.

Exploring fluid behavior in neutron stars and the challenges in modeling their mergers.

Quantum computers face hurdles when addressing chaotic and turbulent systems.

Investigation of how charged particles gain energy in complex magnetic environments.