Pal, UN and Verma, MK and Meena, BL and Varun, Mr and Dhakar, AK
(2019)
Investigation of Electron Emission Characteristics of
Multi-finger Ferroelectric Trigger Source for
Pseudospark Switch.
In: 2019 IEEE Pulsed power and Plasma Science Conference (PPPS 2019), June 23-28, 2019, Florida, USA.
(Submitted)
Abstract
State of the art low pressure cold cathode pseudospark switches (P55) for high pulsed power applications require special kinds of trigger electron source, which possess long life, reliable, durable, uniform electron emission, economical, etc.. [1-4]. A high dielectric (dielectric constant -2000) fe.rrneleetric base.d trigger source is one of the best suited trigger mechanism for the P55 [2-4]. In this paper electron emission and breakdown characteristics of the ferroelectric trigger source has been presented for the generation of required trigger electrons for fast, low jitter and reliable switching. Electrodes with different finger tips and PZT ferroelectric dielectric disc has been analyzed. The electrical and optical diagnostics of ferroelectric trigger source have been performed to analyse electron emission and breakdown characteristics at different operating parameters, such as, gases and pressures, voltages, resistors and inductors. Electrostatic and plasma simulation studies have also been performed to investigate the electric field lines and electron emission processes. An electric field -107 V/cm in vacuum as well as in gases has been observed between the tips of the electrode and ferroelectric disc. The emission characteristics are strongly dependent on the gases, pressures, voltages and resistances. It is showing better emission characteristics -30 A at higher pressure -60 Pa in case of helium and hydrogen gases for 1 kO resistance while in case of argon and nitrogen gases at comparable lower pressure-10 Pa, -20 A emission current has been observed for 20 kO resistance.
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