2017
DOI: 10.1002/2016jd025548
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Dancing sprites: Detailed analysis of two case studies

Abstract: On 29–30 October 2013, a low‐light video camera installed at Pic du Midi (2877 m), recorded transient luminous events above a very active storm over the Mediterranean Sea. The minimum cloud top temperature reached −73°C, while its cloud to ground (CG) flash rate exceeded 30 fl min−1. Some sprite events have long duration and resemble to dancing sprites. We analyze in detail the temporal evolution and estimated location of two series of sprite sequences, as well as the cloud structure, the lightning activity, t… Show more

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Cited by 18 publications
(54 citation statements)
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“…This is consistent with previous experience that SP+CGs often occur behind (but close to) the convective cores of the thunderstorm (Carey et al, ; Lang et al, ; Lu et al, ; Soula et al, ). This result is also consistent with other observations showing that sprites, including dancing sprite events, very often occur above the stratiform cloud area of the parent storm close to the region of secondary radar enhancement or bright band (Lang et al, ; Lyons, ; Soula et al, , , ; van der Velde et al, ; Yang et al, ). Without available radar data, the location of stratiform cloud region could be estimated in this study only roughly from satellite infrared cloud images (Figure ) and from the distribution of lightning activity (Figure ).…”
Section: Discussionsupporting
confidence: 92%
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“…This is consistent with previous experience that SP+CGs often occur behind (but close to) the convective cores of the thunderstorm (Carey et al, ; Lang et al, ; Lu et al, ; Soula et al, ). This result is also consistent with other observations showing that sprites, including dancing sprite events, very often occur above the stratiform cloud area of the parent storm close to the region of secondary radar enhancement or bright band (Lang et al, ; Lyons, ; Soula et al, , , ; van der Velde et al, ; Yang et al, ). Without available radar data, the location of stratiform cloud region could be estimated in this study only roughly from satellite infrared cloud images (Figure ) and from the distribution of lightning activity (Figure ).…”
Section: Discussionsupporting
confidence: 92%
“…This short stroke interval, the spatial closeness of subsequent stroke, and the oriented fashion of the sequence suggest that these strokes are not independent from each other. Time intervals between SP+CG strokes in dancing sprite events are in the same range as time intervals between +CG strokes associated to lightning discharges with an extended network of discharge channels (Lang et al, ; Lu et al, ; Soula et al, , ). It is plausible to hypothesize that SP+CG strokes in many dancing sprite events are part of one long lightning discharge process.…”
Section: Discussionmentioning
confidence: 88%
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“…The current density at 30 km altitude where the channel diameter was 550 m is 3.5 × 10 −3 A m −2 . The re-activation of beads and new patches in the upper jet could be a result of the enhancement of electric fields in the mesosphere as result of large vertical charge transfers, like in the case of sprites 40,41 . The total charge moment change by the end of the TJ stage is 2300 C km.…”
Section: Resultsmentioning
confidence: 99%