L to H mode transition: parametric dependencies of the temperature threshold

Author： Bourdelle C. Chôné L. Fedorczak N. Garbet X. Beyer P. Citrin J. Delabie E. Dif-Pradalier G. Fuhr G. Loarte A. Maggi C.F. Militello F. Sarazin Y. Vermare L. Contributors JET

Publisher： IOP Publishing

E-ISSN： 1741-4326|55|7|73015-73028

ISSN： 0029-5515

Source： Nuclear Fusion, Vol.55, Iss.7, 2015-07, pp. : 73015-73028

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Abstract

The L to H mode transition occurs at a critical power which depends on various parameters, such as the magnetic field, the density, etc. Experimental evidence on various tokamaks (JET, ASDEX-Upgrade, DIII-D, Alcator C-Mod) points towards the existence of a critical temperature characterizing the transition. This criterion for the L-H transition is local and is therefore easier to be compared to theoretical approaches. In order to shed light on the mechanisms of the transition, simple theoretical ideas are used to derive a temperature threshold (T_th). They are based on the stabilization of the underlying turbulence by a mean radial electric field shear. The nature of the turbulence varies as the collisionality decreases, from resistive ballooning modes to ion temperature gradient and trapped electron modes. The obtained parametric dependencies of the derived T_th are tested versus magnetic field, density, effective charge. Various robust experimental observations are reproduced, in particular T_th increases with magnetic field B and increases with density below the density roll-over observed on the power threshold.