Abstract
Xe dielectric barrier discharges at different gap lengths under applied pulse voltages with trapezoidal and sinusoidal waveforms were simulated using a self-consistent one-dimensional fluid model.In both waveforms, the light output power depended not only on the amplitude of voltage waveforms but also on the discharge gap length.At the narrower discharge gap, the light output efficiency was improved by increasing the time gradient of the applied voltage when the trapezoidal pulse is applied, and by decreasing the duty ratio in the sinusoidal case.In the present simulation, we adopted a fast numerical method for calculation of electric field introducing an exact expression of the discharge current.
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