Latest Articles for Plasma Physics

A new method to improve magnetic field diagnostics in fusion reactors.

Research highlights the design and analysis of quasisymmetric stellarators for improved plasma confinement.

Investigating laser interactions for improved fusion energy production.

SPIDER explores plasma management for future fusion energy applications.

Research reveals how black hole rotation alters magnetic reconnection rates in plasma.

New methods improve heat transport simulations in anisotropic plasmas for fusion research.

Analyzing the X1.6 flare reveals key aspects of solar activity.

Magnetic reconnection influences solar flares and space weather phenomena.

Examining ion heating mechanisms in turbulent astrophysical environments.

A look into low Mach number shocks and their effects on solar wind.

Research highlights key processes in mirror machine plasma behavior.

Exploring how radio waves are affected by turbulent plasmas.

Researching plasma stability in tokamaks may lead to advancements in nuclear fusion energy.

Advancements in software are streamlining fusion energy experiments and improving outcomes.

A look into the hot outer layer of the Sun's atmosphere and its heating.

This article discusses a new method for improved simulations in magnetohydrodynamics.

Examining the significance of neutral hydrogen in fusion energy studies.

Exploring how black holes can gain electric charge in plasma environments.

Research reveals new insights into relativistic plasmas and their role in astrophysics.

This study reveals how bursty bulk flows affect the ionosphere based on different mapping models.

Heavy impurities affect plasma behavior and performance in tokamak fusion reactors.

Research on dust particles in plasma provides new insights into their behavior in space.

A new method enhances the efficiency of charged particle simulations.

Examining the behavior of residual energy in magnetohydrodynamic turbulence.

Researching escape basins to improve particle behavior in plasma confinement.

A look at QI stellarators and their significance in nuclear fusion research.

An overview of X-points and their role in nuclear fusion stability.

Understanding how light interacts with charged particles in plasma.

Exploring liquid metal as a potential solution for fusion reactor walls.

A look into how fast particles impact nuclear fusion in stellarator designs.

Exploring black holes, magnetic forces, and energy extraction methods.

Scientists use Plasma Seismology to study electric fields in plasma.

Exploring how cosmic rays influence magnetic fields and create instabilities.

Scientists measure particle movement in the scrape-off layer for fusion energy advancements.

Learn how Landau damping affects energy exchange in plasma systems.

Research on ion temperatures aids fusion energy development.

Discover the role of plasma edge flow in nuclear fusion technology and its implications.

A study on shock waves in hohlraums and their impact on fusion energy.

Buneman instability reveals complex interactions between electrons and ions in plasma.

Discoveries about Cygnus X-1 enhance our knowledge of black holes and stellar evolution.