Observations of Blue Corona Discharges in Thunderclouds
- 1Technical University of Denmark, DTU Space, Denmark
- 2Danish Meteorological Institute, Copenhagen, Denmark
- 3University of Bergen, Birkeland Centre for Space Science, Bergen, Norway
- 4University of Valencia, Image Processing Laboratory, Valencia, Spain
Blue electric streamer discharges in the upper reaches of thunderclouds are observed as flashes in the second positive band of molecular nitrogen at 337.0 nm (blue) with faint emissions from atomic oxygen at 777.4 nm (red), a dominant line of lightning leaders. Using 2.5 years of measurements by the Atmosphere-Space Interactions Monitor (ASIM) on the International Space Station (ISS), we find that their rise time distribution suggests two distinct categories. One includes those with fast rise times less than 30 mus that are relatively unaffected by cloud scattering and emanate from within ~2 km of the cloud tops, and the other those with longer rise times that come from deeper within the clouds. Satellite measurements show that the clouds with blue discharges have an average cloud top temperature ~200 K compared to ~210 K for those of normal lightning, suggesting that blue discharges occur in clouds that reach near the tropopause. The average convective available potential energy (CAPE) determined from ERA5 reanalysis data is ~1550 J/kg for the shallow events and ~1290 J/kg for the deeper events, compared to ~1010 J/kg for regular lightning, suggesting that the discharges favour strong convective environments. This is further indicated by the geographical distribution of blue discharges which show that they occur mainly near mountain ridges or coastlines known for their strongly convective environments.
How to cite: Husbjerg, L., Neubert, T., Chanrion, O., Dimitriadou, K., Stendel, M., Kaas, E., Østgaard, N., and Reglero, V.: Observations of Blue Corona Discharges in Thunderclouds, EGU General Assembly 2022, Vienna, Austria, 23–27 May 2022, EGU22-7225, https://doi.org/10.5194/egusphere-egu22-7225, 2022.