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Twelve lightning flashes are successfully triggered under the positive atmospheric electric field condition. The discharge properties of the flashes, and the propagation characteristics and mechanism of the involving upward negative leaders are investigated. When lightning flashes are triggered, the average ground atmospheric electric field is around 5 kV/m, with a maximum value exceeding 13 kV/m. Except for one special event showing a discharge polarity reversal (from positive to negative) and producing multiple negative return strokes, none of the remaining 11 triggered lightning flashes involves the subsequent return stroke process. The discharge currents of these flashes are generally of the order of several hundred amperes. The successfully triggered lightning flashes start with the initiation and the upward propagation of negative stepped leaders, of which the average two-dimensional velocity is 1.85 × 10 5m/s. For a total of 132 steps captured by the high-speed video camera, the step lengths range from 0.8 m to 8.7 m, with an average of 3.9 m. During the initial stage of the upward negative stepped leader, the current and electromagnetic field present a significant impulsive feature. The mean value of pulse interval, current peak, charge transfer, half-peak-width and current rise time T 10%–90%are 17.9 μs, 81A, 364 μC, 3.1 μs, and 0.9 μs, respectively. The equivalent linear charge density of a single step is 118.5 μC/m. The branching of the leader channel generally takes place together with the stepping process in two ways: the first way is to implement the multiple connections of clustering space stems/space leaders to the leader head within an individual step cycle, and the corresponding current waveform presents a multi-peak structure, with a peak interval of about 2–3 μs (up to 6–7 μs); the second way is to reactivate those previously extinguished space stems/space leaders and to connect them to the lateral surface of the channel.
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日期 编号 引雷时的地面
大气电场强度
/(kV·m–1)平台/
触发
方式*上行负先导
始发高度
/m先导主通道
二维平均速度
/(105m·s–1)闪电持
续时间
/ms闪电转移
电荷总量
/C闪电电
流峰值
/A平均电
流强度
/A2015/07/24 1501 4.31 1/传统 356 2.10 86 16.1 443 169 2015/07/30 1503 3.83 1/传统 453 — 76 19.7 983 258 2019/07/06 1901 4.42 1/传统 257 2.44 622 — — — 1902 4.81 1/传统 425 1.62 288 — — — 1903 4.96 1/传统 473 1.45 355 — — — 1904 10.37 2/空中 — — — — — — 1905 13.18 2/空中 668 — 148 — — — 2019/07/14 1906 7.46 1/传统 — — — — — — 2019/07/29 1907 5.64 1/传统 339 2.01 208 121.4 1613 569 1908 5.37 1/传统 399 1.50 166 84.9 1187 503 1909 5.12 1/传统 555 2.10 210 68.4 883 320 2019/08/07 1910 5.38 1/空中 > 536 — — — — — *注: 表中平台指火箭发射平台, 1代表地面传统平台, 2代表信号塔平台; 传统触发指引雷导线良好接地的方式, 引雷时导线顶端始发单向的上行先导; 空中触发指引雷导线不接地的方式, 导线底部距地面几十米, 引雷时始发双向先导, 上端向雷暴云发展, 下端向地面发展. 
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闪电号 1907 1908 脉冲序列号 P1 P2 P3 P4 P5 P6 P1 P2 P3 P14 P5 P6 P7 P8 P9 P10 P11 脉冲间隔/μs — — 18.9 18.1 24.4 20.2 — 17.7 17.7 17.4 11.4 10.3 22.7 21.6 17.5 15.3 17.6 峰值电流/A 93 113 130 106 96 106 110 93 90 66 53 50 43 46 60 63 63 脉冲电荷量/μC 324 396 441 681 470 553 373 359 327 233 240 249 327 241 316 307 352 半峰值宽度/μs 2.5 2.2 1.9 6.3 4.6 4.9 1.5 2.2 2.2 2.3 4.6 3.2 0.4 3.3 3.8 3.6 4.1 T10%—90%/μs 0.9 0.6 0.9 0.9 2.4 2.4 0.1 0.6 0.4 0.6 1.8 1.1 1.0 1.2 0.5 0.9 0.6 梯级长度/m 2.4 3.4 2.3 3.9 4.5 2.8 2.3 5.5 2.3 4.6 2.3 2.2 2.8 4.5 2.4 4.4 3.2 梯级的等效线电荷密度/(μC·m–1) 131.5 113.7 188.5 174.7 103.3 196.8 159.5 65 139.9 49.9 102.9 112.8 116.7 53 128 69.8 109.5 DownLoad:
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