Quantitative spectral analysis of natural lightning return stroke followed by continuing current with M-components
ID:752 View Protection:ATTENDEE Updated Time:2025-04-03 13:04:35 Hits:545 Invited speech

Start Time:2025-04-20 08:50(Asia/Shanghai)

Duration:15min

Session:S2-14 专题2.14 雷电探测和雷电物理 » S2-14专题2.14 雷电探测和雷电物理

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Abstract
Using time-resolved spectra from three cloud-to-ground (CG) and one tall-object lightning return stroke with continuing current (CC) process and M-components, the temperatures and electron densities calculated from the different sets of ionic and neutral line emissions for long-duration (nearly one millisecond) visible channels with lengths of several hundred meters were quantitatively analyzed. Our analysis showed the following results: (1) The temperature and electron density calculated from the singly ionized lines were noticeably higher than those calculated from the neutral atomic lines. (2) The temperature calculated using the singly ionized lines during the CC process was lower than that of the corresponding return stroke for three lightning. The remaining one lightning return stroke was closely followed by two consecutive M-components. The temperature calculated using the singly ionized lines for the second M-component was higher than that of the corresponding return stroke. The electron density calculated using the singly ionized lines during the CC process was higher than that of the corresponding return stroke. (3) The temperatures and electron densities calculated using the singly ionized lines decreased as the height of the channel increased, while those calculated using the neutral atomic lines increased with increasing channel height. (4) The maximum gradient values of the temperatures calculated from ionic and neutral lines along the channel were 22,200 K/km and 9,000 K/km, respectively, which were observed in the first M-component of lightning B. These results verified that the lateral corona discharge was predominantly responsible for the continuing current process.
 
Keywords
continuing current,temperature, electron densitie
Speaker
王雪娟
副教授 南京信息工程大学

Submission Author
王雪娟 南京信息工程大学
袁萍 西北师范大学 物理与电子工程学院
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    Apr 17

    2025

    to

    Apr 21

    2025

  • Apr 10 2025

    Draft paper submission deadline

  • Apr 28 2025

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中国科学院大气物理研究所
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中国科学院大气物理研究所
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