CVD金刚石中光学击穿阈值的映射

IF 1.1 4区 物理与天体物理 Q3 PHYSICS, MULTIDISCIPLINARY Physics of Wave Phenomena Pub Date : 2023-05-02 DOI:10.3103/S1541308X23020085
T. V. Kononenko, K. K. Ashikkalieva, V. V. Kononenko, A. P. Bol’shakov, V. G. Ral’chenko, V. I. Konov
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引用次数: 0

摘要

提出了一种金刚石晶体光学击穿阈值的两阶段三维映射技术。在第一阶段,金刚石被高能超短激光脉冲照射,在材料的探测体积中引发多个微击穿;这些分解导致石墨微包裹体的形成。在某些晶体区域,微夹杂体的空间密度急剧下降,表明该区域的击穿阈值平均值较邻近区域显著增加。测绘的第二阶段意味着通过选择在所研究的点上形成石墨微包裹体所需的最小激光脉冲能量来测量击穿阈值的绝对值。对第一阶段发现的“异常”晶体带进行了特别彻底的研究,具有最佳的空间分辨率。将该技术应用于不同制造商通过化学气相沉积(CVD)生长的人造金刚石单晶,揭示了这些晶体中击穿阈值变化超过10倍的区域。这些带的边界平行于(100)生长面;层的厚度和位置变化不可预测。
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Mapping of the Optical Breakdown Threshold in CVD Diamond

A technique of two-stage three-dimensional mapping of the optical breakdown threshold in diamond crystals is proposed. In the first stage diamond is irradiated by high-energy ultrashort laser pulses, which initiate multiple microbreakdowns in the probed volume of material; these breakdowns cause formation of graphite microinclusions. A sharp decrease in the spatial density of microinclusions in some crystal zone indicates a significant increase in the average value of breakdown threshold in this zone as compared with the neighborhood. The second stage of mapping implies measurement of the absolute values of breakdown threshold by choosing the minimum laser pulse energy necessary for the formation of a graphite microinclusion at a point studied. The “abnormal” crystal zones revealed in the first stage are investigated especially thoroughly, with optimal spatial resolution. Application of this technique to synthetic diamond single crystals from different manufacturers, grown by chemical vapor deposition (CVD), revealed zones in these crystals where the breakdown threshold changes by a factor of more than 10. The boundaries of these zones are located parallel to the (100) growth face; the layer thickness and position vary unpredictably.

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来源期刊
Physics of Wave Phenomena
Physics of Wave Phenomena PHYSICS, MULTIDISCIPLINARY-
CiteScore
2.50
自引率
21.40%
发文量
43
审稿时长
>12 weeks
期刊介绍: Physics of Wave Phenomena publishes original contributions in general and nonlinear wave theory, original experimental results in optics, acoustics and radiophysics. The fields of physics represented in this journal include nonlinear optics, acoustics, and radiophysics; nonlinear effects of any nature including nonlinear dynamics and chaos; phase transitions including light- and sound-induced; laser physics; optical and other spectroscopies; new instruments, methods, and measurements of wave and oscillatory processes; remote sensing of waves in natural media; wave interactions in biophysics, econophysics and other cross-disciplinary areas.
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