The occurrence of fluid instabilities in gas-puff z-pinch plasmas have been
investigated using laser diagnostic systems. An interferometer system was
employed to investigate the temporal evolution of the structure in the plas
ma column during the pinch. The z-pinch plasma was driven by a fast bank, w
hich provided a current of 160 kA for 1.5 mus quarter period of oscillation
Initially the plasma was formed in a conical shape due to the initial gas
distribution. The plasma layer moved toward the z-axis and its shape gradua
lly changed into columnar. The plasma layer splits into two layers on the w
ay to implosion. The inner layer, which was indicated to be shock front, pr
opagated toward the z-axis faster than the outer layer. The outer layer see
med quite smooth while the implosion by the inner layer took place at the z
-axis. After the blast from the implosion expanded and came across the oute
r layer, the disturbance occurred at the outer layer. It is concluded that
the plasma instability is significantly influenced by the shockwave rather
than the initial gas formation in the case of a microsecond implosion.