Asif Iqbal, Brian Zahler Bentz, Yang Zhou, Kevin Youngman, Peng Zhang
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When the applied voltage is insufficient for ion-induced secondary electron emission to sustain the plasma, laser driven photoemission can still create a breakdown where a sheath (i.e. a region near the electrode surfaces consisting of positive ions and neutrals) is formed. This photoemission induced plasma persists and decays on a much longer time scale ( <?CDATA $\\sim\\!\\!\\!10s$?> <mml:math xmlns:mml=\"http://www.w3.org/1998/Math/MathML\" overflow=\"scroll\"> <mml:mo>∼</mml:mo> <mml:mn>10</mml:mn> <mml:mi>s</mml:mi> </mml:math> <?CDATA $\\mu $?> <mml:math xmlns:mml=\"http://www.w3.org/1998/Math/MathML\" overflow=\"scroll\"> <mml:mi>μ</mml:mi> </mml:math> s) than the laser pulse length ( <?CDATA $30$?> <mml:math xmlns:mml=\"http://www.w3.org/1998/Math/MathML\" overflow=\"scroll\"> <mml:mn>30</mml:mn> </mml:math> ps). The effects of different applied voltages and laser energies on the breakdown voltage and current waveforms are investigated. 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The breakdown process is recorded by high-speed imaging, and time-dependent voltage and current across the electrode gap are measured for different reduced electric fields and laser intensities. We employ a 0D transient discharge model to interpret the experimental measurements. The fitted values of transferred photoelectron charge are compared with calculations from a quantum model of photoemission. The breakdown voltage is found to be lower with photoemission than without. When the applied voltage is insufficient for ion-induced secondary electron emission to sustain the plasma, laser driven photoemission can still create a breakdown where a sheath (i.e. a region near the electrode surfaces consisting of positive ions and neutrals) is formed. 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引用次数: 0
摘要
摘要本文研究了氩气中阴极光电致放电效应。我们在脉冲激光照射下进行了平面阴极的击穿实验,观察了汤森德到辉光放电的转变。高速成像记录了击穿过程,并测量了不同电场和激光强度下电极间隙上随时间变化的电压和电流。我们采用了一个0D瞬态放电模型来解释实验测量结果。将转移的光电子电荷的拟合值与光电量子模型的计算结果进行了比较。发现有光电发射的击穿电压比没有光电发射的击穿电压低。当施加的电压不足以使离子诱导的二次电子发射维持等离子体时,激光驱动的光发射仍然可以在形成鞘层(即由正离子和中性离子组成的电极表面附近的区域)的地方产生击穿。这种光发射诱导等离子体在比激光脉冲长度(30 ps)更长的时间尺度(~ 10 s μ s)上持续和衰减。研究了不同外加电压和激光能量对击穿电压和击穿电流波形的影响。尽管在定量描述瞬态放电电流和电压波形方面存在差异,但该放电模型能够准确地预测实测击穿电压曲线。
Abstract This article characterises the effects of cathode photoemission leading to electrical discharges in an argon gas. We perform breakdown experiments under pulsed laser illumination of a flat cathode and observe Townsend to glow discharge transitions. The breakdown process is recorded by high-speed imaging, and time-dependent voltage and current across the electrode gap are measured for different reduced electric fields and laser intensities. We employ a 0D transient discharge model to interpret the experimental measurements. The fitted values of transferred photoelectron charge are compared with calculations from a quantum model of photoemission. The breakdown voltage is found to be lower with photoemission than without. When the applied voltage is insufficient for ion-induced secondary electron emission to sustain the plasma, laser driven photoemission can still create a breakdown where a sheath (i.e. a region near the electrode surfaces consisting of positive ions and neutrals) is formed. This photoemission induced plasma persists and decays on a much longer time scale ( ∼10sμ s) than the laser pulse length ( 30 ps). The effects of different applied voltages and laser energies on the breakdown voltage and current waveforms are investigated. The discharge model can accurately predict the measured breakdown voltage curves, despite the existence of discrepancy in quantitatively describing the transient discharge current and voltage waveforms.
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