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Operational space and performance limiting events in the first physics campaign of MAST-U

J.W. Berkery, S.A. Sabbagh, L. A. Kogan, S. Gibson, D. A. Ryan, V. Zamkovska, Jalal Butt, J. Harrison, S. Henderson

2023Plasma Physics and Controlled Fusion15 citationsDOIOpen Access PDF

Abstract

Abstract The MAST-U fusion plasma research device, an upgrade to the Mega Amp Spherical Tokamak, has recently completed its first campaign of physics operation. MAST-U operated with Ohmic, or one or two neutral beams for heating, at 400–800 kA plasma current, in conventional or ‘SuperX’ divertor configurations. Equilibrium reconstructions provide key plasma physics parameters vs. time for each discharge, and diagrams are produced which show where the prevalence of operation occurs as well as the limits in various operational spaces. When compared to stability limits, the operation of MAST-U so far has generally stayed out of the low q , low density instability region, and below the high density Greenwald limit, high beta global stability limit, and high elongation vertical stability limit. MAST-U still has the potential to reach higher elongation, which could benefit the plasma performance. Despite the majority of operations happening below established stability limits, disruptions do occur in the flat-top phase of MAST-U plasmas. The reasons for these disruptions are highlighted, and possible strategies to avoid them and to extend the operational space of MAST-U in future campaigns are discussed.

Topics & Concepts

Mast (botany)DivertorTokamakPlasmaPhysicsLimitingInstabilitySpherical tokamakNuclear engineeringUpgradeAerospace engineeringMechanicsComputational physicsNuclear physicsMast cellComputer scienceEngineeringMechanical engineeringBiologyOperating systemImmunologyMagnetic confinement fusion researchParticle accelerators and beam dynamicsFusion materials and technologies