Latest Articles for Nuclear Fusion

Shattered Pellet Injection offers solutions for controlling heat during fusion disruptions.

TORAX is an open-source simulator designed for tokamak plasma research.

Research focuses on managing plasma disruptions to improve fusion reactor safety.

Research reveals insights into plasma behavior for improved fusion energy production.

Study reveals crucial insights into ion temperatures during nuclear fusion processes.

Examining turbulence dynamics at the edge of Tokamaks for improved fusion research.

A new method improves plasma control in stellarators by optimizing magnetic islands and coil design.

A fresh approach to better manage plasma instabilities in fusion reactors.

Researchers analyze Negative Triangularity plasmas for more efficient fusion energy production.

New methods improve plasma stability and computational efficiency in fusion reactors.

Exploring the impact of drift-tearing modes on plasma stability in tokamak devices.

Research on plasma and materials is vital for future fusion energy development.

New diagnostic tools are enhancing plasma studies in the SMART experiment.

SCR-1 stellarator in Costa Rica studies plasma for future fusion energy.

Recent findings on NT plasmas could shape the future of fusion energy systems.

Research highlights how nonuniformity affects plasma behavior in fusion reactors.

ITER aims to demonstrate nuclear fusion as a viable energy source through PFPO.

Researchers examine large-angle collisions impacting fusion processes in burning plasmas.

A new method to classify magnetic fields improves fusion energy efficiency.

A look into the behavior of charged particles in various states of matter.

This article explains how plasma waves affect stability in nuclear fusion.

Research sheds light on turbulence effects in fusion reactors and zonal flows.

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

Investigating laser interactions for improved fusion energy production.

Research highlights key processes in mirror machine plasma behavior.

Researchers explore room temperature fuels for fusion energy efficiency.

Scientists enhance nuclear fusion research through adaptable computing frameworks.

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

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

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

OpenMC proves effective for atomic transport calculations in nuclear fusion.

Researchers propose spatially modulated plasma profiles to manage turbulence in fusion devices.

Neutrinos are elusive particles that hold many secrets about the universe.

Discover the fascinating world of quantum tunneling and its crucial applications.

Imidogen's role in fusion and space chemistry reveals its unexpected importance.

Researchers tackle turbulence in stellarators for improved nuclear fusion efficiency.