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The phenomenology of reconnection events in the reversed field pinch

B. Momo, H. Isliker, R. Cavazzana, M. Zuin, L. Cordaro, D. Löpez‐Bruna, E. Martines, I. Predebon, Cristina Rea, M. Spolaore, L. Vlahos, P. Zanca

2020Nuclear Fusion13 citationsDOIOpen Access PDF

Abstract

The phenomenology of reconnection events, associated to relaxations in high-current (similar to 1.5 MA) plasmas of the reversed-field pinch device RFX-mod, is shown. Each relaxation event can be described as a series of stages starting in the core and propagating towards the plasma edge. In an initial stage (trigger), the evolution of the q profile brings resonant layers closer together, allowing for an interaction of the current sheets associated to tearing modes at the respective rational values of q. The phase locking of the resonant modes then initiates the reconnection process that, once started, changes the magnetic topology bringing the initially helical state to a more chaotic configuration.

Topics & Concepts

Phenomenology (philosophy)PinchPhysicsMagnetic reconnectionReversed field pinchPlasmaNuclear physicsMagnetohydrodynamicsPhilosophyEpistemologyQuantum chaos and dynamical systemsMagnetic confinement fusion researchLaser-Plasma Interactions and Diagnostics
The phenomenology of reconnection events in the reversed field pinch | Litcius