Litcius/Paper detail

Axisymmetric predictions for mitigated and vertically unstable disruptions in ITER with runaway electrons

V. Bandaru, M. Hoelzl, F.J. Artola, M. Lehnen, JOREK team

2025Journal of Plasma Physics12 citationsDOIOpen Access PDF

Abstract

We present two-dimensional global simulations of mitigated and vertically unstable disruptions in ITER in the presence of runaway electrons (REs). An elongated plasma in free-boundary equilibrium is subjected to an artificial thermal quench (TQ) and current profile flattening, followed by one or more massive material injections and a RE avalanche. Scenarios of major disruptions as well as upward and downward vertical displacement events are considered. Results provide important insights into the effects of RE formation, post TQ current profile, injection quantities and timings, and impurity flushout on the overall evolution of disruption and the plasma vertical motion thereof. Interplay between the various effects offers scope for potentially beneficial RE mitigation scenarios.

Topics & Concepts

PhysicsRotational symmetryElectronPlasma instabilityPlasmaMechanicsNuclear physicsMagnetic confinement fusion researchFusion materials and technologiesNuclear reactor physics and engineering