This study examined 34 lightning flashes within four separate thundersnow events derived from lightning mapping arrays (LMAs) in northern Alabama, central Oklahoma, and Washington DC. The goals were to characterize the in-cloud component of each lightning flash, as well as the correspondence between the LMA observations and lightning data taken from national lightning networks like the National Lightning Detection Network (NLDN). Individual flashes were examined in detail to highlight several observations within the dataset.The study results demonstrated that the structures of these flashes were primarily normal polarity. The mean area encompassed by this set of flashes is 375 km2, with a maximum flash extent of 2300 km2, a minimum of 3 km2, and a median of 128 km2. An average of 2.29 NLDN flashes were recorded per LMA-derived lightning flash. A maximum of 11 NLDN flashes were recorded in association with a single LMA-derived flash on 10 January 2011. Additionally, seven of the 34 flashes in the study contain zero NLDN identified flashes. Eleven of the 34 flashes initiated from tall human-made objects (e.g., communication towers). In at least six lightning flashes, the NLDN detected a return stroke from the cloud back to the tower and not the initial upward leader. This study also discusses lightning’s interaction with the human built environment and provides an example of lightning within heavy snowfall observed by GOES-16’s Geostationary Lightning Mapper.
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机译:这项研究检查了阿拉巴马州北部,俄克拉荷马州中部和华盛顿特区的四个独立雷暴事件中的34次雷暴事件,这些事件来自雷电映射阵列(LMA)。目标是表征每个闪电的云中成分,以及LMA观测值与从国家闪电网络(如国家闪电检测网络(NLDN))获得的闪电数据之间的对应关系。详细检查了单个闪光灯,以突出显示数据集中的一些观察结果。研究结果表明,这些闪光灯的结构主要是正常极性。这组闪光所涵盖的平均面积为375 km 2 ,最大闪光范围为2300 km 2 ,最小为3 km 2 ,并且中位数为128 km 2 。每个LMA派生的闪电闪光平均记录2.29 NLDN闪光。在2011年1月10日,与单个LMA派生的闪光灯相关联,最多记录了11次NLDN闪光。此外,研究中的34个闪光灯中有7个包含零个NLDN识别闪光。 34次闪烁中有11次是由高个的人造物体(例如通讯塔)引发的。在至少六次闪电中,NLDN检测到从云层返回塔架的回程,而不是最初的向上引导。这项研究还讨论了闪电与人为建筑环境的相互作用,并提供了GOES-16对地静止闪电测绘仪观测到的大雪中闪电的示例。
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