Properties of a laser-initiated pseudospark discharge

Chuaqui Kettlun, Hernán; Favre Dominguez, Mario Bejamin; Wyndham Hodder, Edmund Sydenham; Arroyo González, Luis Orlando; Choi, P.

Properties of a laser-initiated pseudospark discharge

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Properties of a laser-initiated pseudospark discharge.pdf(4.49 KB)

Date

1989

Authors

Chuaqui Kettlun, Hernán

Favre Dominguez, Mario Bejamin

Wyndham Hodder, Edmund Sydenham

Arroyo González, Luis Orlando

Choi, P.

Abstract

A short-pulse Nd:YAG laser is used to illuminate the back electrode surface in the hollow cathode region of a pseudospark discharge. A fast rising step voltage pulse is applied across the electrodes at various times relative to the pulsed laser illumination. The delay and jitter to the onset of gas breakdown at various filling gas pressures are measured for different laser energies and wavelengths. It is observed that the millijoule range of a green laser applied to illuminate the hollow cathode surface at up to tens of microseconds before the application of voltage would significantly reduce both delay and jitter to discharge initiation. Higher laser energy applied after voltage rise is observed to cause gas breakdown in under 100 ns.<>

Keywords

Gas lasers, Electrodes, Surface discharges, Surface emitting lasers, Cathodes, Optical pulses, Jitter, Breakdown voltage, Lighting, Propagation delay

URI

https://doi.org/10.1109/27.41199
https://ieeexplore.ieee.org/stamp/stamp.jsp?arnumber=41199
https://repositorio.uc.cl/handle/11534/64167

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