Effect of injected flux and current temporal phasing on self-organization in the HIT-SI3 experiment

Author:

Morgan K. D.1ORCID,Hansen C. J.1ORCID,Hossack A. C.1ORCID,Sutherland D. A.2ORCID

Affiliation:

1. Department of Aeronautics and Astronautics, University of Washington, Seattle, Washington 98195, USA

2. CTFusion Inc., Seattle, Washington 98121, USA

Abstract

The HIT-SI3 device at the University of Washington uses three oscillating inductive helicity injectors to form and sustain spheromak plasma equilibria. By adjusting the temporal phase of the injector waveforms with respect to each other, the toroidal spectrum of the imposed perturbations can be controlled. Using a recently implemented GPU-based control system, the available mode spectra were explored experimentally by scanning the space of relative injector phasing. In this space, significant variation in the toroidal mode spectrum ( n =  1, 2, 3) of the perturbations was observed. Additionally, variation in characteristics of driven equilibria was also observed, including a [Formula: see text] range in toroidal current gain ([Formula: see text]). Experimental results are compared with both a composite-equilibria and nonlinear dynamic model, including extended MHD simulations using the NIMROD code and composite Taylor state equilibria computed using the PSI-Tet code. Qualitative agreement is seen with the nonlinear models, but not with composite-equilibria models, suggesting the use of nonlinear models to better capture observed plasma dynamics and provide predictive use for future experiments.

Funder

Advanced Research Projects Agency - Energy

Publisher

AIP Publishing

Subject

Condensed Matter Physics

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