loading page

Ultra-Slow Discharges That Precede Lightning Initiation
  • +4
  • Christopher Francis Sterpka,
  • Dwyer Joseph R,
  • Liu Ningyu,
  • Demers Nicholas R,
  • Brian Hare,
  • Olaf Scholten,
  • Sander ter Veen
Christopher Francis Sterpka
University of New Hampshire

Corresponding Author:[email protected]

Author Profile
Dwyer Joseph R
University of New Hampshire
Author Profile
Liu Ningyu
The University of New Hampshire
Author Profile
Demers Nicholas R
University of New Hampshire
Author Profile
Brian Hare
University of Groningen
Author Profile
Olaf Scholten
University of Groningen
Author Profile
Sander ter Veen
ASTRON
Author Profile

Abstract

We report on ultra-slowly propagating discharge events with speeds in the range 1-13 km/s, much lower than any known lightning process. The propagation speeds of these discharges are orders of magnitude slower than leader or streamer speeds, but faster than the ion drift speed. For one particular event, a lightning leader forms about 40 ms later within 50 m of the discharge, likely within the same high field region. A second slow event forms 9 ms prior to the initiation, and leads into the negative leader. Most slow events appear to not be directly involved with lightning initiation. This suggests that the classic streamer cascade model of initiation is not always a definitive process. In this work we describe these discharge events displaying unique behavior, their relation to common lightning discharges, and their implications for lightning initiation.