Geodesic
High-energy particles flux origin in the clouds, dark lightning
Vestnik KRAUNC. Fiziko-matematičeskie nauki, no. 4 (2016), pp. 63-73 Cet article a éte moissonné depuis la source Math-Net.Ru

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Problem of high-energy particles flux origin in clouds is discussed. Conditions in which dark lightning preceding the ordinary one and creating additional ionization, fluxes of fast electrons with MeV energy prior to the earthquake detected among lightning initiating ball-lightning, glow, sprites are considered. All above phenomena appear to be of general nature founded on quantum entanglement of hydrogen bonds protons in water clasters inside clouds.
Keywords: high-energy particles flux origin in the clouds, dark lightning, glow
Mots-clés : sprites. 
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     author = {V. V. Kuznetsov},
     title = {High-energy particles flux origin in the clouds, dark lightning},
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     language = {ru},
     url = {http://geodesic.mathdoc.fr/item/VKAM_2016_4_a9/}
}
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V. V. Kuznetsov. High-energy particles flux origin in the clouds, dark lightning. Vestnik KRAUNC. Fiziko-matematičeskie nauki, no. 4 (2016), pp. 63-73. http://geodesic.mathdoc.fr/item/VKAM_2016_4_a9/

[1] Vereshchagina I. P., Vysokovol'tnye elektrotekhnologii, MEI, M., 1999

[2] Ermakov V. I., Stozhkov Yu. I., Fizika grozovykh oblakov, Preprint No 2, FIAN im. Lebedeva, M., 2004

[3] Kuznetsov V. V., “Mnogochastichnaya kvantovaya zaputannost – proryvnoe napravlenie v nauke”, Kvantovaya magiya, 8:1 (2011), 1101-1119

[4] Ostgaard N., Gjesteland T. , Carlson B. E., Collier A. B., Cummer S. A., Lu G., Christian H. J., “Simultaneous observations of optical lightning and terrestrial gamma ray ash from space”, Geophys. Res. Lett., 40 (2013)

[5] Kolyasnikov Yu. A., “Politetramernaya model' struktury zhidkoy vody”, DAN, 315:3 (1990), 652-656

[6] Choi Y. C., Pak C., Kim K. S., “Electric field effects on water clusters (n=3-5): systematic ab initio study of structures”, J. Chem. Phys., 124 (2006), 094308

[7] Kuznetsov V. V., Udarno-volnovaya model' ochaga zemletryaseniya, Preprint No 8, IGG SO RAN, Novosibirsk, 1990

[8] Averin S. A., Aleshina M. E., Voronov S. A., Galper A. M., et al., Variations of high-energy particle fluxes in the inner radiation belt and their correlation with seismicity, Preprint 061-90, MiFI, M., 1990

[9] Kuznetsov V. V., Orishich A. M., Issledovanie transportirovki v gaze moshchnogo elektronnogo puchka iz uskoritelya RIUS-5, Preprint 70-38, IYaF SO RAN, Novosibirsk, 1970

[10] Kuznetsov V. V., “Sharovaya molniya – kak kvantovomekhanicheskoe yavlenie v atmosfernom elektricheskom pole”, Kvantovaya magiya, 8:3 (2011), 3101-3107

[11] Dwyer J. R., “The relativistic feedback discharge model of terrestrial gamma ray flashes”, Geoph. Res. Lett., 117 (2012), A02308