Latest Articles for Plasma Physics

Study reveals how molecular hydrogen acts in various plasma settings.

Insights into edge behavior and benefits of negative triangularity in plasma research.

A new method improves accuracy in predicting electron behavior in hypersonic conditions.

Learn how solar flares lead to coronal rain, influencing space weather and the Sun's atmosphere.

A new model improves real-time plasma analysis for fusion research.

This study focuses on structural monitoring in fusion devices under various forces.

This article discusses a new method for studying plasma anisotropy using the CGL equations.

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

This study reveals new insights into turbulence in space environments.

Researchers improve plasma simulations with a new numerical integration method.

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

This study details the formation and dynamics of solar prominences through simulation.

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

Research on magnetic islands enhances plasma stability and disruption prevention in tokamaks.

Research examines how magnetic reconnection affects solar events and energy release.

Shattered Pellet Injection offers solutions for controlling heat during fusion disruptions.

TORAX is an open-source simulator designed for tokamak plasma research.

Plasma screening influences electron behavior and atomic transitions in dense plasma environments.

New methods improve efficiency and performance in fusion devices.

Research focuses on managing plasma disruptions to improve fusion reactor safety.

Examining key observations of the 2014 solar flare and its implications.

Examining how strong screening shapes nuclear reactions in the early universe.

Stable numerical methods enhance plasma flow simulation accuracy and applications.

Kink waves play a key role in solar dynamics and heating processes.

Study of particle interaction in a plasma system with two distinct surfaces.

Research on double-null configurations offers new insights for managing heat exhaust in fusion reactors.

New methods improve plasma simulations for better understanding and applications.

Research sheds light on the mechanisms behind flares from Sgr A*, our galaxy's black hole.

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

Study reveals crucial insights into ion temperatures during nuclear fusion processes.

Examining turbulence dynamics at the edge of Tokamaks for improved fusion research.

A new method improves plasma control in stellarators by optimizing magnetic islands and coil design.

A fresh approach to better manage plasma instabilities in fusion reactors.

Study explores Scale-Dependent Dynamic Alignment in solar wind turbulence.

Research introduces Fusion-LLM to enhance prediction of hot electron behavior in fusion.

Researchers analyze Negative Triangularity plasmas for more efficient fusion energy production.

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

Examining breather solitons in electron-positron-ion plasmas for better insights.

Investigating the role of collisions in plasma instabilities and their implications.

Examining the influence of fast ions on plasma stability and transport processes.