Latest Articles for Plasma

Radiation mediated shocks reveal insights into powerful stellar events and element formation.

Investigating how ions behave in high power impulse magnetron sputtering.

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

Learn about black holes, their effects, and how they challenge our understanding of physics.

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

Researchers use quantum computing to improve plasma simulation methods.

Nine spacecraft team up to study turbulence in space plasma.

A look into the potential of plasma wakefields for compact particle accelerators.

Research reveals periodic energy changes in magnetar X-ray bursts.

Plasma turbulence influences cosmic environments and energy transfer across various scales.

Investigating how plasma influences the behavior and formation of black hole jets.

A new model predicts runaway electrons during plasma disruptions.

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

New techniques improve understanding of low-temperature plasmas through synthetic data generation.

This study examines how charged particles behave over time in plasma systems.

Advancements in RF fields enhance particle retention for fusion energy.

Dive into the role of shock waves in cosmic phenomena.

Study reveals how diet alters protein profiles, influencing health.

Exploring how pair beams interact with plasma and their implications for blazars.

Examining the Super-X divertor's role in managing plasma heat.

New findings reveal unique floating behaviors of glycerol clusters under electric fields.

Research shows whole blood can provide vital insights into COVID-19 severity.

An overview of measuring energy flow in the Sun's calm regions.

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

Recent progress in producing high-energy electrons using powerful lasers opens new applications.

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

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

Research reveals fascinating plasma patterns created by powerful microwave pulses.

New methods enhance the identification of proteins in human cells and blood samples.

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

An overview of solar flares, their characteristics, and related radio emissions.

Exploring advancements in helicon plasma thruster design for better efficiency.

Research aims to improve plasma efficiency in industrial applications.

New method assesses blood plasma properties linked to COVID-19 outcomes.

Exploring plasma's impact on the creation of light elements after the Big Bang.

Discover how axion stars might emit light in our galaxy.

Research on axions in neutron stars sheds light on dark matter.

Researchers enhance electron acceleration using new laser techniques.

An overview of solar spicules and their role in the solar atmosphere.

ReMKiT1D provides a flexible tool for modeling plasma behavior in tokamaks.