Latest Articles for Plasma

Discover how microplasma systems enhance material studies in real-time.

Tearing modes significantly affect plasma stability and performance in fusion devices.

Research harnesses machine learning to analyze plasma light emissions for deeper insights.

Exploring particle behavior under intense gamma-ray radiation.

Examining runaway electrons and their impact on plasma stability in fusion reactors.

Simulations help scientists study the behavior of pulsars and their magnetospheres.

A look into coronal mass ejections and their effects on space weather.

Research reveals how plasma proteins can indicate organ aging and health risks.

Exploring black holes using synchrotron emission and temperature variations.

Analyzing ionization in plasmas reveals challenges and discrepancies in models and experiments.

An overview of efforts to accelerate positrons in plasma wakefields.

Exploring the Magnetic Fusion Plasma Drive for advanced space propulsion.

Discover how lasers are changing electron acceleration for medicine and research.

Researchers gain new insights into plasma behavior and fusion processes through advanced simulations.

Exploring quantum computing's potential in analyzing electromagnetic waves in magnetized plasmas.

Opacity is key to understanding energy movement in stars and their chemical makeup.

A study of dark halos reveals their unique properties in solar activity.

Examining how CMEs travel and their effects on Earth's environment.

Exploring the role of plasma behavior in galaxy clusters and its implications.

A fresh approach to modeling turbulence using machine learning can enhance simulations.

Research sheds light on how cooling affects magnetic reconnection in astrophysical environments.

This article examines how plasma affects black holes and their shadows.

Study reveals key interactions in solar plasma structures.

Investigating how triangularity shapes plasma behavior for better energy management in fusion.

Scientists are advancing positron acceleration techniques with plasma for improved particle physics research.

Scientists manipulate plasma characteristics using end-electrodes to influence particle movement.

Research reveals new insights on coronal loops and their dynamics.

Recent findings reveal connections between magnetic reconnection and coronal heating.

An overview of narrowband kilometric radiation from Jupiter and its implications.

Research focuses on managing plasma instability during nuclear fusion experiments.

This study examines how waves influence plasma behavior in solar prominences.

Two spacecraft observed solar wind structures for better understanding.

Exploring the unexpected behavior of plasma in space.

Analyzing how collisions affect trapped-electron modes in fusion plasma.

New techniques improve simulations of plasma wakefield acceleration for better particle control.

Exploring the dynamics and formation of solar chromospheric jets.

Research sheds light on magnetic reconnection processes and their effects on energetic events.

Study reveals complexities of energy emissions in weak solar flares.

Solar flares are powerful solar events with significant effects on Earth.

Examining how fan-spine structures contribute to solar jets.