Abstract
Three distinct data acquisition systems (photo-diode, hybrid video camera/rotating mirror, and high-speed video camera) are utilized to study the behavior of a contemporary geissler plasma discharge tube. The geometry of the tube is responsible for the large changes that occur in the plasma current density over a short distance. The three techniques utilized reveal details of the plasma behavior in a complementary manner. The value of the fractal capacity dimension of the attractor depends on the voltage applied across the tube.
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