Title :
Soliton Production With Nonlinear Homogeneous Lines
Author :
Elizondo-Decanini, Juan M. ; Coleman, Dale ; Moorman, Matthew ; Petney, Sharon ; Dudley, Evan ; Youngman, Kevin ; Penner, Tim ; Lu Fang ; Myers, Kathy
Author_Institution :
Sandia Nat. Labs., Albuquerque, NM, USA
Abstract :
Low- and high-voltage Soliton waves were produced and used to demonstrate collision and compression using diode-based nonlinear transmission lines. Experiments demonstrate soliton addition and compression using homogeneous nonlinear lines. The nonlinear lines were built using commercially available diodes. These diodes are chosen after their capacitance versus voltage dependence is used in a model and the line design characteristics are calculated and simulated. Nonlinear ceramic capacitors are then used to demonstrate high-voltage pulse amplification and compression. The line is designed such that a simple capacitor discharge, input signal, develops soliton trains in as few as 12 stages. We demonstrated output voltages in excess of 40 kV using Y5V-based commercial capacitors. The results show some key features that determine efficient production of trains of solitons in the kilovolt range.
Keywords :
capacitance; discharges (electric); plasma collision processes; plasma diodes; plasma simulation; plasma solitons; capacitance; capacitor discharge; diode-based nonlinear transmission lines; high-voltage pulse amplification; high-voltage pulse compression; high-voltage soliton waves; homogeneous nonlinear lines; low-voltage soliton waves; nonlinear ceramic capacitors; plasma collision process; plasma simulation; voltage dependence; Capacitors; Diodes; Mathematical model; Solitons; Transmission lines; Voltage measurement; Capacitors; diodes; n-p junction; nonlinear; solitons; transmission lines; transmission lines.;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2015.2497233
