Ultraviolet emission intensity, visible luminance, and electrical characteristics of small arrays of Al/Al_2O_3 microcavity plasma devices operating in Ar/N_2 or Ne at high-power loadings

摘要

Small arrays (3 X 3 → 10X10) of microcavity plasma devices, having a two-stage structure comprising multilayer stacks of nanostructured Al_2O_3 grown on Al foil with cylindrical microcavities 100-300 μm in diameter, produce intense ultraviolet (UV) and visible emission when operated in Ar/3% N_2 gas mixtures or Ne and excited by a sinusoidal ac voltage wave form. Near-UV (300-400 nm) intensities emitted into a solid angle of ～10~(-2) sr above 30 mW per cm~2 of radiating area are measured for Ar/N_2 gas mixture pressures of 400-800 Torr, an excitation frequency of 15 kHz, and an average current ≥ 20 mA (rms). Two or more conjoined cylindrical microcavities of differing diameters allow for the confinement of the plasma to progressively smaller volumes as the power deposited is increased (thereby decreasing the Debye length and the spatial extent of the cathode fall region) and provides a convenient tool with which the luminosity of an array can be modulated. The transition of a microplasma from confinement in a 200-μm-diam cavity into an adjacent 100-μm-diam microcavity is accompanied by an order-of-magnitude increase in the luminance of Ne plasmas in a 3 X 3 array as the rms current is increased by ～1 mA.