Field emission from point diamond cathodes under continuous laser irradiation

Seriya 3: Fizika, Astronomiya Pub Date : 2024-05-02 DOI:10.55959/msu0579-9392.79.2420501

V. Kleshch, I.R. Anderzhanov, R. Ismagilov, A. Obraztsov

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Abstract

The presented study investigates the impact of continuous laser irradiation in the visible range on the field emission properties of diamond needle-like micro-sized crystallites with a nanometer tip radius. The measurements were carried out in a vacuum diode configuration with a flat metal anode using DC voltage source. It was found that the field emission current increased under illumination, showing a direct correlation with the radiation power. At a maximum power density of about 400 W/cm2 the relative increase in current under the action of laser irradiation was 13%. The relative increase in current is determined by the parameters of the dark current-voltage characteristic and reaches its maximum value in the region corresponding to the minimum increase in dark current with voltage. It is shown that the most likely mechanism for the increase in current is a change in the electrical resistance of the diamond microneedle as a result of absorption of laser radiation in the presence of electron levels located in the band gap of the diamond associated with impurities or structural defects in the near surface layer of the diamond microneedle.

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点状金刚石阴极在连续激光照射下的场发射

本研究探讨了可见光范围内连续激光辐照对尖端半径为纳米的金刚石针状微小晶体的场发射特性的影响。测量是在带有平金属阳极的真空二极管配置中使用直流电压源进行的。结果发现，场发射电流在光照下增大，与辐射功率直接相关。在最大功率密度约为 400 W/cm2 时，激光照射下电流的相对增幅为 13%。电流的相对增幅由暗电流-电压特性参数决定，并在暗电流随电压增幅最小的相应区域达到最大值。研究表明，电流增加的最可能机制是金刚石微针的电阻发生了变化，这是由于金刚石微针近表面层中的杂质或结构缺陷导致位于金刚石带隙中的电子水平吸收了激光照射的结果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Seriya 3: Fizika, Astronomiya

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