H. Bolt et al., ENERGY DEPOSITION DURING DISRUPTION SIMULATION EXPERIMENTS IN A PLASMA-ACCELERATOR, Fusion engineering and design, 30(3), 1995, pp. 225-232
Plasma accelerators are often proposed as test beds for disruption sim
ulation experiments on plasma facing materials for fusion applications
. The incident energy fluxes and the discharge duration are of similar
order to those expected during disruptions in ITER. In this work the
VIKA facility of the D.V. Efremov Institute was used for calorimetric
measurements and for material tests. The calorimetric measurements sho
wed that below the threshold for the ablation of material only a small
fraction of the total power of the plasma is deposited in the target.
Carbon materials which were exposed to energy depositions above the a
blation threshold exhibited a nearly proportional increase of the eros
ion with increasing total power. From these experiments it is conclude
d that the shielding effect of the material surface from the incident
power is mainly due to the formation of a dense cloud of recycled gas
in front of the target and to a smaller extent due to the ablation of
target material.