The Way Forward for the Spherical Tokamak

D C Robinson; R Buttery; I Cook; M Cox; M Gryaznevich; T C Hender; P Knight; A W Morris; M R O'Brien; C Ribeiro; A Sykes; T N Todd; M Walsh; H R Wilson

doi:dx.doi.org/10.13182/FST96-A11963138

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Home / Publications / Journals / Fusion Science and Technology / Volume 30 / Number 3P2B

The Way Forward for the Spherical Tokamak

D C Robinson, R Buttery, I Cook, M Cox, M Gryaznevich, T C Hender, P Knight, A W Morris, M R O'Brien, C Ribeiro, A Sykes, T N Todd, M Walsh, H R Wilson

Fusion Science and Technology / Volume 30 / Number 3P2B / December 1996 / Pages 1360-1366

Innovative Approaches to Fusion Energy / dx.doi.org/10.13182/FST96-A11963138

Published:February 9, 2018

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The low aspect ratio or spherical tokamak offers the prospect of burning plasmas in a compact simple system at a lower cost than in conventional tokamaks. The promising results obtained on START and other small spherical tokamaks have led to the approval of higher current devices at the MA level where the key issues of operational limits, confinement, plasma exhaust and steady state potential can be tested under more demanding conditions. From such devices it is a comparatively small step to a burning plasma and such devices have already been proposed. The compact nature of the spherical tokamak and its steady state potential make it ideally suited as a component test facility and also as a low cost, small unit size power plant capable of advancing the timetable for fusion exploitation.