Latest Articles for Fusion Energy

A new model improves real-time plasma analysis for fusion research.

This study focuses on structural monitoring in fusion devices under various forces.

Examining the impact of ITG modes on turbulence in fusion devices.

GAMs play a crucial role in plasma behavior and energy confinement in fusion reactors.

Research on magnetic islands enhances plasma stability and disruption prevention in tokamaks.

New methods improve efficiency and performance in fusion devices.

Exploring the impact of magnetic fields on fluid dynamics in liquid metals.

Research on double-null configurations offers new insights for managing heat exhaust in fusion reactors.

Research identifies promising alternatives to tungsten for fusion reactor components.

Examining the influence of fast ions on plasma stability and transport processes.

New method improves accuracy in simulating plasma and neutral particle interactions.

Modeling the scrape-off layer in W7-X enhances fusion energy research.

This research examines how triangularity influences turbulence in tokamak plasma.

Research evaluates two codes for modeling plasma behavior in tokamaks.

Research on electron plasma waves sheds light on plasma dynamics and wave interactions.

Examining particle movement in turbulent edge plasma within Tokamaks.

A look into low-beta plasma behavior under temperature and density gradients.

Exploring how drift waves and zonal flows affect plasma stability and confinement.

New methods improve plasma emission visualization and property recovery in fusion studies.

A new method for designing stellarator coils improves efficiency and control.

Exploring low momentum diffusivity's role in stabilizing plasma for fusion reactors.

Examining the role of beam focusing in understanding plasma turbulence for fusion research.

Research on QC-modes in plasma sheds light on fusion energy dynamics.

G2C3 improves simulations of plasma microturbulence in fusion devices using neural networks.

Examining the role of suprathermal ions in plasma drift instabilities.

Examining a new TPR spectrometer for neutron analysis in fusion reactors.

Negative triangularity reactors may enhance fusion efficiency and performance.

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

SPIDER explores plasma management for future fusion energy applications.

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

A study on the structural responses of the MAST-U tokamak under various loads.

Exploring the behavior and merging of plasma blobs in fusion reactors.

Research highlights magnetic dipole transitions affecting gamma spectra in nuclear collisions.

Examining the significance of neutral hydrogen in fusion energy studies.

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

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

Research on ion temperatures aids fusion energy development.

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

Study reveals how collisions affect particle confinement in magnetic mirrors.

Tritium's role in fusion energy highlights challenges and innovative solutions for future reactors.