Latest Articles for 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.

Exploring low momentum diffusivity's role in stabilizing plasma for fusion reactors.

Examining the role of beam focusing in understanding plasma turbulence for fusion research.

A detailed look at cosmic rays and their role in galaxy clusters.

This article explains how plasma waves affect stability in nuclear fusion.

Examining how different shapes influence air movement over surfaces.

New insights into how turbulence affects star formation in molecular clouds.

A study reveals differences in star formation across the Milky Way.

Research sheds light on turbulence effects in fusion reactors and zonal flows.

A look into the dynamics of black hole accretion disks and their complexities.

This article discusses unusual turbulence behaviors observed from active grids in wind tunnels.

Research highlights how zonal winds shape planetary atmospheres and their turbulent behavior.

Research examines weak and strong magnetized turbulence in accretion disks.

Magnetic reconnection influences solar flares and space weather phenomena.

Examining how rotation influences fluid stability between moving plates.

Examining ion heating mechanisms in turbulent astrophysical environments.

This study explores how particles influence fluid movement in turbulent conditions.

Combining neural and diffusion models improves accuracy in turbulence predictions.

Study reveals molecular gas behavior in 28 bright, star-forming galaxies.

Exploring chaotic behavior in fluid dynamics through Taylor-Couette flow findings.

A model explains C IV doublet formation in young stars and its accretion processes.

Research highlights key processes in mirror machine plasma behavior.

A study on how symmetries shape fluid flow behaviors.

Investigating how magnetized plasma behaves near black holes with low angular momentum.

Examining carbon monoxide emissions reveals conditions in luminous galaxies.

Researching plasma stability in tokamaks may lead to advancements in nuclear fusion energy.

Investigating splash bridges and their role in galaxy evolution.

A study on how thermal fluctuations affect fluid dynamics in turbulent conditions.

Combining machine learning with traditional methods improves turbulence predictions and efficiency.

Research on active nematics reveals how patterns control flow behaviors.

A new tool helps measure turbulence in galaxy clusters, enhancing our cosmic understanding.

This article examines how black hole outflows influence the growth and change of galaxies.

A new model enhances predictions of turbulent flows using machine learning.

A look into solar wind behavior and its effects on space science.

A look into how scientists study turbulence in fluids and its challenges.