Latest Articles for Plasma Physics

Exploring advancements in helicon plasma thruster design for better efficiency.

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

Investigating how reinforcement learning can improve tokamak magnetic control.

Researchers enhance electron acceleration using new laser techniques.

Exploring key findings from the Parker Solar Probe on solar wind behavior.

Examining how weak magnetic fields influence the creation of atomic nuclei.

New pulse shapes enhance ion heating for better energy output in fusion reactions.

Examining the chiral anomaly and its role in generating magnetic fields in high-energy environments.

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

A look into the behavior and significance of electron and ion holes in plasmas.

Exploring the role of dust-acoustic waves in dusty plasmas across various environments.

Research reveals how electric currents impact magnetic islands in plasma confinement.

SPICE's observations enhance our understanding of the Sun's atmosphere and solar wind.

Study reveals insights into plasma turbulence and behavior with gyromoment method.

Investigating the behavior of trapped particles in stellarators and tokamaks.

This article examines how turbulence affects kink waves in the solar corona.

New methods improve analysis of non-Maxwellian plasma dynamics using Thomson scattering.

Study reveals complex interactions of charged particles in plasmas.

Investigating high-speed plasma collisions and their implications for energy generation.

This article explores the movement of charged particles in electric and magnetic fields.

Magnetic nulls play a key role in magnetic fields and energy flow.

Study of how plasma movements create magnetic fields in celestial bodies.

Examining the interaction of electrons with whistler-mode waves in space.

Investigating how solar wind electrons behave near the Earth's bow shock.

Scientists observe long-lasting kink oscillations in coronal loops, shedding light on solar heating.

This study examines magnetosonic waves generated by compact toroids in magnetic fields.

Study reveals how turbulent magnetic reconnection accelerates particles in cosmic settings.

Magnetic flux ropes play a key role in solar phenomena.

This study examines the role of saturation rules in plasma transport modeling.

Investigating the effects of rotation on quark-gluon plasma properties.

Exploring how runaway electrons impact tokamak stability and fusion research.

Investigating MRI effects on matter falling into black holes.

Researchers study plasma dynamics to improve fusion energy predictions.

A look at how opacity affects energy transport in stars, focusing on iron ions.

How plasma affects atomic behavior and light interactions.

Solar eruptions impact space weather; magnetic flux ropes play a key role.

Research from the MMS mission reveals key insights into magnetic fluctuations.

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

Study reveals insights into energy distribution and magnetic reconnection in cosmic plasmas.

This study sheds light on how shocks heat electrons in space environments.