Title :
A deconvolution technique for B-dot signals from a plasma-driven electromagnetic launcher
Author :
Bouvier, Brigitte U.
Author_Institution :
Westinghouse Electr. Corp., Pittsburgh, PA, USA
fDate :
6/1/1989 12:00:00 AM
Abstract :
A novel technique is being developed to quantify the current distribution in the plasma armature of an electromagnetic launcher (EML). The technique relies on data from B-dot probes inserted above the barrel of an EML. The current distribution is found by taking the fast Fourier transform of the integral of the B-dot signal and deconvolving it with a geometry-dependent weight function. The result allows calculation of the total plasma length and total current magnitude. The author describes the signal-analysis technique, discusses results obtained from theoretical B-dot signals, and suggests possible sources of error which may be encountered when deconvolving experimental B-dot signals
Keywords :
Fourier transforms; electromagnetic launchers; plasma diagnostics; plasma probes; plasma transport processes; B-dot probes; barrel; current distribution; deconvolution technique; fast Fourier transform; geometry-dependent weight function; integral; plasma armature; plasma-driven electromagnetic launcher; signal-analysis technique; theoretical B-dot signals; total current magnitude; total plasma length; Argon; Current distribution; Deconvolution; Electromagnetic launching; Fast Fourier transforms; Magnetic fields; Magnetic flux; Plasma sources; Probes; Rails;
Journal_Title :
Plasma Science, IEEE Transactions on
