Axial confinement in the Novatron mirror machine

J. Scheffel; J. Jäderberg; K. Bendtz; R. Holmberg; K. Lindvall

doi:10.1088/1741-4326/add173

Nuclear Fusion (Jan 2025)

Axial confinement in the Novatron mirror machine

J. Scheffel,
J. Jäderberg,
K. Bendtz,
R. Holmberg,
K. Lindvall

Affiliations

J. Scheffel: ORCiD; Novatron Fusion Group , Teknikringen 31, Stockholm, Sweden; Electromagnetic Engineering and Fusion Science, KTH Royal Institute of Technology , Teknikringen 31, Stockholm, Sweden
J. Jäderberg: Novatron Fusion Group , Teknikringen 31, Stockholm, Sweden
K. Bendtz: Novatron Fusion Group , Teknikringen 31, Stockholm, Sweden
R. Holmberg: ORCiD; Novatron Fusion Group , Teknikringen 31, Stockholm, Sweden
K. Lindvall: Novatron Fusion Group , Teknikringen 31, Stockholm, Sweden

DOI: https://doi.org/10.1088/1741-4326/add173
Journal volume & issue: Vol. 65, no. 6
p. 066011

Abstract

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The Novatron magnetic mirror fusion reactor concept features significant advantages. These include stability against MHD interchange and kinetic drift cyclotron loss cone modes, axisymmetry, and minimized radial particle drifts and neoclassical losses. For achieving a ratio $Q \unicode{x2A7E} 30$ of fusion power to heating power, axial particle confinement is uniquely designed to rely on the simultaneous use of three distinct forces; magnetic mirrors, electrostatic potentials, and ponderomotive forces in a tandem-like configuration. Axial confinement physics theory is here analyzed and compared to earlier mirror configurations. Scenarios for D-T, D-D, and catalyzed D-D fusion plasmas are outlined.

Published in Nuclear Fusion

ISSN: 0029-5515 (Print); 1741-4326 (Online)
Publisher: IOP Publishing
Country of publisher: United Kingdom
LCC subjects: Science: Physics: Nuclear and particle physics. Atomic energy. Radioactivity
Website: https://iopscience.iop.org/journal/0029-5515

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