What question did this study set out to answer?

The research aims to analyze chaotic behavior induced by resonant magnetic perturbations in tokamaks using the Hamiltonian method.

February 11, 2026Open Access

Hamiltonian estimation of island width threshold for stochasticity onset on edge pedestal top in the presence of a resonant magnetic perturbation

Key Points

The research aims to analyze chaotic behavior induced by resonant magnetic perturbations in tokamaks using the Hamiltonian method.
Applied Hamiltonian method for analysis
Compared renormalization method, Lyapunov exponents, and weighted Birkhoff average
Investigated nonlinear magnetic topology
Identified strong consistency among three methods for predicting stochasticity threshold
Established magnetic island width threshold as a quantitative criterion for RMP optimization

Abstract

This study applies the Hamiltonian method to analyze the nonlinear magnetic topology induced by Resonant Magnetic Perturbations (RMPs) in tokamaks. We investigate the system's chaotic behavior by comparing three methods: the renormalization method, Lyapunov exponents, and weighted Birkhoff average. A strong consistency is found among these methods in predicting the large-scale stochasticity threshold. The magnetic island width threshold provides a quantitative criterion for optimizing RMP-based edge-localized modes control, bridging a critical gap in plasma control strategies.

Hamiltonian estimation of island width threshold for stochasticity onset on edge pedestal top in the presence of a resonant magnetic perturbation

Key Points

Abstract

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