Reversal of in-out asymmetry of the particle-recycling associated with X-point MARFE and plasma detachment

Reversal of in-out asymmetry of the particle recycling in tokamak divertor regions and its physical mechanism have been studied. Numerical calculations by the 'B2-EIRENE' code have been done for the JT-60U open divertor geometry. The following two cases, n(D) = 1.0 x 10(19) m(-3) and n(D) = 2.0 x 10(19) m(-3) for the D+ ion density at the core interface boundary, have been calculated. In the high-density case, typical behaviors of X-point MARFE and plasma detachment have been observed. In addition, asymmetry of the particle recycling between the inner and the outer divertor regions is reversed in comparison with the low-density case. The difference of the electron temperature between the inner and the outer regions together with the T-e-dependence of the ionization rate coefficient is shown to be a possible cause of the reversal of the recycling source. Also, the difference of pressure loss between two regions plays a key role in the in-out asymmetry of the particle flux at the plate. (C) 2001 Elsevier Science B.V. All rights reserved.