Overview of the SPARC physics basis towards the exploration of burning-plasma regimes in high-field, compact tokamaks-Reference-Cited by-同舟云学术

Overview of the SPARC physics basis towards the exploration of burning-plasma regimes in high-field, compact tokamaks

Published:2022-03-01 Issue:4 Volume:62 Page:042003
ISSN:0029-5515
Container-title:Nuclear Fusion
language:
Short-container-title:Nucl. Fusion

Author:

Rodriguez-Fernandez P.^ORCID,Creely A.J.^ORCID,Greenwald M.J.^ORCID,Brunner D.,Ballinger S.B.^ORCID,Chrobak C.P.^ORCID,Garnier D.T.^ORCID,Granetz R.^ORCID,Hartwig Z.S.,Howard N.T.^ORCID,Hughes J.W.^ORCID,Irby J.H.,Izzo V.A.^ORCID,Kuang A.Q.^ORCID,Lin Y.,Marmar E.S.,Mumgaard R.T.,Rea C.^ORCID,Reinke M.L.^ORCID,Riccardo V.^ORCID,Rice J.E.^ORCID,Scott S.D.^ORCID,Sorbom B.N.^ORCID,Stillerman J.A.^ORCID,Sweeney R.^ORCID,Tinguely R.A.^ORCID,Whyte D.G.,Wright J.C.,Yuryev D.V.

Abstract

Abstract The SPARC tokamak project, currently in engineering design, aims to achieve breakeven and burning plasma conditions in a compact device, thanks to new developments in high-temperature superconductor technology. With a magnetic field of 12.2 T on axis and 8.7 MA of plasma current, SPARC is predicted to produce 140 MW of fusion power with a plasma gain of Q ≈ 11, providing ample margin with respect to its mission of Q > 2. All tokamak systems are being designed to produce this landmark plasma discharge, thus enabling the study of burning plasma physics and tokamak operations in reactor relevant conditions to pave the way for the design and construction of a compact, high-field fusion power plant. Construction of SPARC is planned to begin by mid-2021.

Funder

Commonwealth Fusion Systems

Publisher

IOP Publishing

Subject

Condensed Matter Physics,Nuclear and High Energy Physics

Link

https://iopscience.iop.org/article/10.1088/1741-4326/ac1654/pdf

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