B. Lipschultz 1, C. Boswell 1,
J. Goetz 1, C. S. Pitcher 1,
J. Terry 1, J. Weaver 2,
B. Welch 2*, A. Hubbard 1,
S. Krasheninnikov 1, B. LaBombard 1,
D. Pappas 1
1 M.I.T. Plasma Science and Fusion Center, Cambridge, Ma., 02139, USA
2 Institute for Plasma Research, U. Maryland, Maryland 20742, USA
* present address Applied Research Center, 12050 Jeffereson Ave.,
Newport News, Va. 23606.
Abstract
Detailed profiles of the volumetric recombination occurring in
Alcator C-Mod plasmas are presented. During detachment the recombination sink
is compared to the divertor plate sink as well as the divertor ion
source. Depending on plasma conditions, volume recombination removes between
10 and 75% of the ions before they reach the plates. A second, equally
important process that leads to a drop in plate ion current is inferred to be
a reduction in divertor ion source, which is correlated with a drop in power
flowing into the ionization region and the pressure loss of detachment . For
high
the divertor recombination can cross the separatrix near
the x-point, cool the core and lead to a disruption. Experimental measurements
show a difference in ion and neutral velocities for H-mode detached plasmas.
The resulting ion-neutral collisions are found to be more efficacious than
recombination in removing momentum from the ions. The neutral component of
volumetric power emission from the divertor has been measured by means of a
novel filtering technique to be substantial ( 20% of the total divertor
volumetric emission).
IAEA 1999