Electrical discharges at small gap lengths stimulated by femtosecond laser pulses

The electrical characteristics of current-controlled electrical discharges formed in micro- and nano-scale gaps between sharpened metal cathodes and metal anodes were studied. When electrical potential was applied to the tip, transient electrical discharges were observed to form at a field of about 3×108V/m. Irradiation of the tip/gap/substrate area with a femtosecond laser beam was found to decrease the field required for spark initiation. The length of current-controlled discharges increased with voltage. The surface modification at the gold film anodes was found to be well-controlled when current was regulated and the sharpened metal cathode tips were not much modified by discharges.