Latest Articles for Plasma Physics

This study examines the role of gold cones in improving energy efficiency in fusion.

Research reveals changes in QPP periods during solar flares, shedding light on flare dynamics.

Researchers investigate plasma dynamics during ablation using pulsed-power-driven systems.

Investigating how ions behave in high power impulse magnetron sputtering.

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

This article explores how plasma technologies influence combustion and vice versa.

Study of Alfvén waves and their dynamics in the solar atmosphere.

New insights improve understanding of charged particle behavior in plasmas.

New RelSIM method improves simulation of astrophysical plasmas, enhancing accuracy and efficiency.

This article examines how driving frequency influences electron dynamics in capacitively coupled plasma.

Introducing an effective method to model heat diffusion in fusion plasmas.

Nine spacecraft team up to study turbulence in space plasma.

A detailed look into turbulence behavior in complex plasmas and its significance.

Improving BIT1's performance can enhance plasma research and energy technologies.

This article discusses uncertainty quantification in plasma physics and its significance for fusion energy.

New concepts aim to improve plasma stability and energy transport in fusion reactors.

Scientists study how gravitational and magnetohydrodynamic waves interact in space.

Examining how energy transfer shapes the solar wind.

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

New methods improve accuracy in plasma behavior simulations using the Landau collision integral.

A new model predicts runaway electrons during plasma disruptions.

New tool improves understanding of RF sheath effects in fusion device operations.

Improving plasma predictions through advanced computational methods for nuclear fusion.

Examining how shear Alfvén waves affect energetic particle behavior in fusion reactors.

Study of wave interactions vital for plasma stability in fusion energy research.

Research reveals conditions for local smooth solutions in plasma physics.

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

Dive into the role of shock waves in cosmic phenomena.

Research reveals insights into energy transfer in the solar atmosphere through slow waves.

Research reveals how impurities impact plasma dynamics and magnetic islands in tokamaks.

This article discusses a new approach to simulating plasma turbulence using gyro-moments.

Examining the effects and processes of magnetic reconnection in plasma environments.

A study on how gravitational and electromagnetic waves interact in plasma environments.

A new technique in laser technology allows for high-speed precision in various applications.

Research uncovers key insights into helicon waves and their potential applications.

A look into magnetic reconnection and its implications for space weather.

An overview of solar filament eruptions and their impacts on space weather.

Examining the effects of chirality in plasma under magnetic fields.

A study of turbulence driven by instabilities in magnetized environments.

Magnetic fields in galaxy clusters shape the dynamics of the intracluster medium.