High-time-resolution imaging of transient discharge processes without fixed triggering

IF 1.4 4区工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC

Iet Science Measurement & Technology Pub Date : 2022-06-10 DOI:10.1049/smt2.12111

Xianglin Meng, Hui Song, Gehao Sheng, Xiuchen Jiang

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引用次数: 0

Abstract

Higher time resolution imaging is vital for exploring the microscopic mechanisms of the discharge process. The transient processes of discharge phenomena occur in a short time, and the onset cannot be predicted in advance, thus not providing a trigger mechanism for conventional high-speed imaging methods. Here, the authors propose a high-time-resolution imaging method with 55-ps time resolution and single-photon detection sensitivity. First, the current signal generated by the discharge itself with a rising edge of only a few tens of nanoseconds combined with a high-speed sensing and signal-processing device is used to solve the high-speed triggering problem, and then the single-photon avalanche detector array operating in time-correlated single-photon counting mode combined with computational imaging techniques is used to obtain the evolution of the negative corona discharge at atmospheric pressure in air on the ps time scale, and finally, the time-dependent curves of the discharge photon number at different experimental voltages with different curvature radii are analysed. The method opens up new possibilities for imaging other high-speed dynamic processes without a fixed trigger signal.

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无固定触发的瞬态放电过程的高时间分辨率成像

高时间分辨率成像对于探索放电过程的微观机制至关重要。放电现象的瞬态过程发生在很短的时间内，无法提前预测其发生，因此无法为传统的高速成像方法提供触发机制。在此，作者提出了一种具有55-ps时间分辨率和单光子探测灵敏度的高时间分辨率成像方法。首先，利用放电本身产生的上升沿只有几十纳秒的电流信号，结合高速传感和信号处理装置，解决高速触发问题;然后利用工作在时间相关单光子计数模式下的单光子雪崩探测器阵列，结合计算成像技术，获得了大气中负电晕在大气压下在ps时间尺度上的放电演变，最后分析了不同实验电压下不同曲率半径下放电光子数的随时间变化曲线。该方法为在没有固定触发信号的情况下成像其他高速动态过程开辟了新的可能性。

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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来源期刊

Iet Science Measurement & Technology 工程技术-工程：电子与电气

CiteScore

4.30

自引率

7.10%

发文量

审稿时长

7.5 months

期刊介绍： IET Science, Measurement & Technology publishes papers in science, engineering and technology underpinning electronic and electrical engineering, nanotechnology and medical instrumentation.The emphasis of the journal is on theory, simulation methodologies and measurement techniques. The major themes of the journal are: - electromagnetism including electromagnetic theory, computational electromagnetics and EMC - properties and applications of dielectric, magnetic, magneto-optic, piezoelectric materials down to the nanometre scale - measurement and instrumentation including sensors, actuators, medical instrumentation, fundamentals of measurement including measurement standards, uncertainty, dissemination and calibration Applications are welcome for illustrative purposes but the novelty and originality should focus on the proposed new methods.