Non-linear macro evolution of a dc driven micro atmospheric glow discharge

TL;DR

This study investigates the complex, non-linear macro evolution of micro atmospheric glow discharges generated between a micro argon jet and ambient air, revealing different behaviors depending on whether water acts as a cathode or anode.

Contribution

It provides new insights into the non-linear dynamics and self-inhibition processes of micro discharges influenced by water acting as cathode or anode.

Findings

Water surface lowers faster when acting as cathode.

Discharge brightness follows logistic growth curves.

Different behaviors are linked to charged particle interactions.

Abstract

We studied the macro evolution of the micro atmospheric glow discharge generated between a micro argon jet into ambient air and static water. The micro discharge behaves similarly to a complex ecosystem. Non-linear behaviors are found for the micro discharge when the water acts as a cathode, different from the discharge when water behaves as an anode. Groups of snapshots of the micro discharge formed at different discharge currents are captured by an intensified charge-coupled device with controlled exposure time, and each group consisted of 256 images taken in succession. Edge detection methods are used to identify the water surface and then the total brightness is defined by adding up the signal counts over the area of the micro discharge. Motions of the water surface at different discharge currents show that the water surface lowers increasingly rapidly when the water acts as a cathode. In contrast, the water surface lowers at a constant speed when the water behaves as an anode. The light curves are similar to logistic growth curves, suggesting that a self-inhibition process occurs in the micro discharge. Meanwhile, the total brightness increases linearly during the same time when the water acts as an anode. Discharge-water interactions cause the micro discharge to evolve. The charged particle bomb process is probably responsible for the different behavior of the micro discharges when the water acts as cathode and anode.