Runaway breakdown is a theory of lightning initiation proposed by Alex Gurevich in 1992.[1][2]
Electrons in air have a mean free path of ~1 cm. Fast electrons which move at a large fraction of the speed of light have a mean free path up to 100 times longer. Given the long free paths, an electric field can accelerate these electrons to energies far higher than that of initially static electrons. If they strike air molecules, more relativistic electrons will be released, creating an avalanche multiplication of "runaway" electrons. This process, relativistic runaway electron avalanche, has been hypothesized to lead to electrical breakdown in thunderstorms, but only when a source of high-energy electrons from a cosmic ray is present to start the "runaway" process.
The resulting conductive plasma trail, many tens of meters long, is suggested to supply the "seed" which triggers a lightning flash.
See also
List of plasma (physics) articles
Spark gap
Avalanche breakdown
Electron avalanche
References
A. V. Gurevich, G. M. Milikh, and R. A. Roussel-Dupre (1992) "Runaway electron mechanism of air breakdown and preconditioning during a thunderstorm," Physics Letters A, 165 : 463–468.
Alexander V. Gurevich & Kirill P. Zybin (May 2005). "Runaway breakdown and the mysteries of lightning". Physics Today. 58 (5): 37–43. Bibcode:2005PhT....58e..37G. doi:10.1063/1.1995746.
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