Latest Articles for Plasma Physics

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.

Learn about Landau damping and its effects on plasma behavior and particle interactions.

New methods improve plasma stability and computational efficiency in fusion reactors.

This article explores methods for modeling interactions of charged particles in plasmas.

This article discusses how magnetic fields influence tearing instability in plasma.

A study reveals key properties and behaviors of coronal loops in the Sun's atmosphere.

Exploring the impact of drift-tearing modes on plasma stability in tokamak devices.

New method improves accuracy in simulating plasma and neutral particle interactions.

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

This research examines how triangularity influences turbulence in tokamak plasma.

Research on plasma and materials is vital for future fusion energy development.

Research evaluates two codes for modeling plasma behavior in tokamaks.

Study reveals how charge moves in hot, magnetized plasma under various conditions.

New diagnostic tools are enhancing plasma studies in the SMART experiment.

A new boundary condition enhances simulations of magnetic reconnection in space environments.

Research reveals complexities in laser interactions with plasma affecting energy production.

SCR-1 stellarator in Costa Rica studies plasma for future fusion energy.

Exploring the impact of instabilities on particle acceleration in astrophysical shocks.

Research on electron plasma waves sheds light on plasma dynamics and wave interactions.

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

Enhancing interpretability of machine learning models in plasma diagnostics for better insights.

Examining particle movement in turbulent edge plasma within Tokamaks.

Explore the intriguing drifting subpulses of pulsars and current models explaining their behavior.

Research sheds light on K emissions from He-like oxygen in high-energy environments.

Study reveals how turbulence and instabilities affect energy conversion in plasma.

Recent findings on NT plasmas could shape the future of fusion energy systems.

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

Research highlights how nonuniformity affects plasma behavior in fusion reactors.

Exploring how gravitational waves behave in plasma environments.

ITER aims to demonstrate nuclear fusion as a viable energy source through PFPO.