Overview of transport and MHD stability study: focusing on the impact of magnetic field topology in the Large Helical Device
NUCLEAR FUSION(2015)
Abstract
The progress in the understanding of the physics and the concurrent parameter extension in the large helical device since the last IAEA-FEC, in 2012 (Kaneko O et al 2013 Nucl. Fusion 53 095024), is reviewed. Plasma with high ion and electron temperatures (T-i(0) similar to T-e(0) similar to 6 keV) with simultaneous ion and electron internal transport barriers is obtained by controlling recycling and heating deposition. A sign flip of the nondiffusive term of impurity/momentum transport (residual stress and convection flow) is observed, which is associated with the formation of a transport barrier. The impact of the topology of three-dimensional magnetic fields (stochastic magnetic fields and magnetic islands) on heat momentum, particle/impurity transport and magnetohydrodynamic stability is also discussed. In the steady state operation, a 48 min discharge with a line-averaged electron density of 1 x 10(19) m(-3) and with high electron and ion temperatures (T-i(0) similar to T-e(0) similar to 2 keV), resulting in 3.36 GJ of input energy, is achieved.
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Key words
helical,transport,topology
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