Return stroke speed of cloud-to-ground lightning estimated from elve hole radii

• Published in: Geophysical research letters Vol. 41; no. 24; pp. 9182 - 9187
• Main Authors: Blaes, P. R., Marshall, R. A., Inan, U. S.
• Format: Journal Article
• Language: English
• Published: Washington Blackwell Publishing Ltd 28.12.2014; John Wiley & Sons, Inc
• Subjects: Altitude; Bayesian analysis; Channels; Cloud-to-ground lightning; Computer simulation; D region; Electromagnetic pulses; Electromagnetic radiation; Elves; Elves (atmospherics); Estimates; Ionosphere; Lightning; Mathematical models; Numerical simulations; Photometers; Probability theory; Propagation; Properties; Radiation; Return stroke; return stroke speed; Return strokes (lightning); Shape; Simulation; Statistical inference
• ISSN: 0094-8276; 1944-8007
• DOI: 10.1002/2014GL062392

We present the first measurements of the lightning return stroke speed that directly relate to the current return stroke, as opposed to its optical manifestation. The shape of elves is determined by the electromagnetic pulse (EMP) radiation pattern at D region altitudes, which is in turn controlled by the geometry and current propagation properties of the return stroke channel. In particular, numerical simulation of the EMP‐ionosphere interaction shows a strong relationship between the elve “hole” radius and the current return stroke speed. The hole radii are measured from a data set of 55 elves observed with the PIPER photometer. Using these radii observations in conjunction with numerical simulations of the EMP, we perform Bayesian inference to estimate the distribution of return stroke speeds. The results show a maximum a posteriori probability return stroke speed estimate of 0.64c for elve producing lightning. Key Points We establish the relationship between return stroke speed and elve geometryWe estimate the distribution of return stroke speeds for 55 elve observationsThe return stroke speed of elve‐causative lightning is faster than expected