Modeling of Blumlein Circuit and Calculation of Resistance and Inductance of Laser Plasma
International Journal of Science, Technology and Society
Volume 2, Issue 6, November 2014, Pages: 196-200
Received: Nov. 25, 2014;
Accepted: Dec. 4, 2014;
Published: Dec. 16, 2014
Views 2991 Downloads 246
Caifeng Zhao, Electrical Engineering Department, Harbin Institute of Technology, Harbin, China
Jianqiang Wu, Electrical Engineering Department, Harbin Institute of Technology, Harbin, China
Follow on us
Laser plasma discharge circuit can be simulated by Pspice through practical measuring result. We find that the circuit model of laser plasma should be simulated by a inductance in series with a resistor, furthermore in parallel with a capacitor. The value of the capacitor affect the oscillation frequency of the laser output voltage. The smaller the value of the equivalent capacitor, the less the rise time of the pulse voltage of the laser chamber. Also the rise time of the pulsed voltage of laser can be less when the stray inductance and transmission line capacitance are reduced. It is also found the time –invariant inductance is dependent on the total charge in the discharge area, the time-invariant inductance is dependent on the electric field in the laser chamber.
Blumlein, Pspice, Spark Gap, Laser Plasma, Curve Proximity, Matlab
To cite this article
Modeling of Blumlein Circuit and Calculation of Resistance and Inductance of Laser Plasma, International Journal of Science, Technology and Society.
Vol. 2, No. 6,
2014, pp. 196-200.
D. A. Peterson and D. R. Crosley, Hanle Effect of Lifetime Measurements on Selectively Excited Diatomic Sulfur. J. Chem. Phys. 1973, 159 (4): 1933-1941
Wang Fuchun, Or CAD 9.0 Concise Course. Chinese mechanical publishing house. 2000, 9, First Edition.
William D. Greason, Methodology to study the resistance of spark discharges. IEEE. Transactions on Industry Application, vol.35, no.2, pp.359, March/April 1999
Rompe, R., Weizel W.: Ueber das Toeplersche Funkengesetz.Z.phys. 122, 636-639 (1944)