Latest Articles for Plasma Physics

Study explores AI's role in optimizing plasma stability through effective magnetic field predictions.

Examining how coronal loop expansion affects solar phenomena and space weather.

How plasma dynamics affect radio signal behavior from the Sun.

Examining the interactions and behaviors of solitary waves during collisions.

This study improves measurement accuracy from the Tianwen-1 spacecraft.

Introducing a novel approach to simulating particles in plasma environments using the Particle-in-Fourier scheme.

Learn about spicules and their role in the Sun's atmosphere.

Research reveals how electrostatic wave interactions can create rogue waves in unique plasma conditions.

This article explores the behavior and decay of axial charge in chiral MHD.

This article discusses how plasma waves interact and lead to solitons.

This article explores wave interactions in non-Maxwellian plasma models using coupled nonlinear Schrodinger equations.

A look at how HiPIMS improves thin film deposition techniques.

High-powered lasers can disrupt gas jets, causing EMP emissions and nozzle damage.

Scientists study the corona's heating mechanisms and complex emission line behavior.

Birdcage antenna improves efficiency in helicon wave plasma generation.

A look into particle interactions using the Vlasov-Poisson model.

Investigating the role of Alfven waves in neutron star magnetospheres and their interactions.

Examining the impact of Alfvén eigenmodes on plasma behavior in fusion devices.

An overview of plasma instabilities in gyrokinetic studies and their implications.

Research reveals important insights on plasma stability in magnetic confinement fusion.

Research explores how microtearing modes affect plasma behavior and energy efficiency.

Exploring the influence of chiral asymmetry on magnetic fields in high-energy plasmas.

A new method improves heat transport modeling in complex plasma environments.

Effective techniques help control runaway electrons in tokamak fusion reactors.

New enhancements to BIT1 improve plasma simulation performance using advanced computing techniques.

Recent observations reveal important details about Alfvén waves and their role in the solar atmosphere.

Study examines how ion-electron mass ratios affect plasma turbulence behavior.

Research on ion acoustic waves reveals crucial details about the solar wind.

New techniques improve heat control in fusion energy systems for better efficiency.

Research reveals significant interactions of low-frequency waves in the solar wind.

This paper examines TPD instability and its effects on fusion energy performance.

Explore forced magnetic reconnection and Alfven resonance in magnetized plasmas.

Research sheds light on Fe XVI and Fe XVII's role in solar activity.

New methods improve accuracy in modeling fluid behavior in magnetic fields.

This article studies electromagnetic waves in plasma near exotic compact objects.

This study explores the importance of rotational transitions in molecular ions and low-energy electron collisions.

New electric field designs in stellarators may improve plasma performance and reduce impurities.

Study reveals how sunspot motions affect solar activity and space weather.

Investigating the subchromospheric layer and its impact on solar phenomena.

Study examines how injection conditions influence electron transport in Hall thrusters.