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(FTP/13) Advanced Tokamak Burning Plasma Experiment

M. Porkolab, P. T. Bonoli, J. Ramos, J. Schultz

MIT Plasma Science and Fusion Center, Cambridge, Massachusetts 02139, USA

W. N. Nevins
Lawrence Livermore National Laboratory, PO Bo x 808 (L-637), Livermore, CA 94551, USA

Abstract.  A new reduced size ITER-RC superconducting tokamak concept is proposed with the goals of studying burn physics either in an inductively driven standard tokamak (ST) mode of operation, or in a quasi-steady state advanced tokamak (AT) mode sustained by non-inductive means. This is achieved by reducing the radiation shield thickness protecting the superconducting magnet by 0.34 m relative to ITER and limiting the burn mode of operation to pulse lengths as allowed by the TF coil warming up to the current sharing temperature. High gain ( Q $\simeq$ 10) burn physics studies in a reversed shear equilibrium, sustained by RF and NB current drive techniques, may be obtained.

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