Genesis of column sprites: formation mechanisms and optical structures

Plasma Sources Science and Technology Pub Date : 2024-02-26 DOI:10.1088/1361-6595/ad29c0
R Marskar
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Abstract

Sprite discharges are electrical discharges that initiate from the lower ionosphere during intense lightning storms, manifesting themselves optically as flashes of light that last a few milliseconds. This study unravels sprite initiation mechanisms and evolution into distinctive morphologies like glows and beads, using direct 3D numerical simulations that capture the intricate electrical discharge processes. We clarify various morphological aspects of sprites such as the halo dynamics, column glows, branching, streamer reconnection, and bead formation. The results advance our understanding of sprites and their connection to thunderstorm dynamics, and puts quantitative analysis of their effect on Earth’s climate within reach.
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柱状精灵的成因:形成机制和光学结构
魍魉放电是强烈闪电风暴期间从低层电离层引发的放电,在光学上表现为持续几毫秒的闪光。本研究利用直接三维数值模拟捕捉错综复杂的放电过程,揭示了魍魉放电的启动机制以及演变为发光和串珠等独特形态的过程。我们阐明了精灵的各种形态,如光环动力学、柱状辉光、分支、流线再连接和珠的形成。这些结果推进了我们对精灵及其与雷暴动力学联系的理解,并使我们能够对它们对地球气候的影响进行定量分析。
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Plasma Sources Science and Technology
Plasma Sources Science and Technology
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