Plasma breakdown in bubbles passing between two pin electrodes

Abstract: The ignition of plasmas in liquids has applications from medical instrumentation to manipulation of liquid chemistry. Formation of plasmas directly in a liquid often requires prohibitively large voltages to initiate breakdown. Producing plasma streamers in bubbles submerged in a liquid with higher permittivity can significantly lower the voltage needed to initiate a discharge by reducing the electric field required to produce breakdown. The proximity of the bubble to the electrodes and the shape of the bubbles… Show more

“…In applications, bubbles usually move through the solution, while in experimental studies, bubbles are usually stationary [9,[14][15][16][17][18]. The 3D ellipsoidal shape of submerged bubbles introduce geometry that can help or hinder the local electric field in and around the bubbles [19,20].…”

Electrical breakdown dynamics in an argon bubble submerged in conductive liquid for nanosecond pulsed discharges

“…In applications, bubbles usually move through the solution, while in experimental studies, bubbles are usually stationary [9,[14][15][16][17][18]. The 3D ellipsoidal shape of submerged bubbles introduce geometry that can help or hinder the local electric field in and around the bubbles [19,20].…”

Electrical breakdown dynamics in an argon bubble submerged in conductive liquid for nanosecond pulsed discharges

Breakdown and interface dynamics of pulsed discharge plasma across air-water interface: from single to repetitive stimulation

The backward problem in plasma-assisted combustion: Experiments of nanosecond pulsed discharges driven by flames