Abstract
The Plasma Injector 3 (PI3) experiment at General Fusion has been constructed to demonstrate the ability to form plasma targets suitable for compression in a Magnetized Target Fusion machine. To achieve compressive heating to fusion conditions, the target plasmas should have an energy confinement time sufficiently in excess of the compression time. In this work we present a methodology for calculating this timescale and present results for a large set of discharges. Characterization of the plasma current profiles reveals trends and groupings determined by machine settings. The largest energy confinement times have been obtained for discharges with a broad plasma current profile, fresh lithium coating on the device walls, and a near constant toroidal field. We find that PI3 plasmas at 5ms into the discharge can have thermal confinement times in excess of 10ms. These meter-scale plasma can thus achieve significant heating if compressed on a timescale of milliseconds.
A. Tancetti, C. Ribeiro, S.J. Howard, S. Coop, C.P. McNally, M. Reynolds, P. Kholodov, F. Braglia, R. Zindler, C. Macdonald, E. Love, P. Carle, X. Feng, A. Rohollahi, K. Leci, D. Plant, C. Dunlea, R. Ivanov and A. Mossman.
Published 28 February 2025. 2025 Nucl. Fusion 65 036043 DOI 10.1088/1741-4326/adb8fb
