@article{3017093,
    title = "A numerical model approximating extreme energetic electron events involved in the physical and chemical processes of the middle atmosphere",
    author = "Tritakis, V.P. and Pisanko, Yu.V. and Paliatsos, A.G. and Korbakis, G.K. and Nastos, P.Th.",
    journal = "Advances in Space Research",
    year = "2009",
    volume = "43",
    number = "4",
    pages = "665-672",
    publisher = "Elsevier Ireland Ltd",
    issn = "0273-1177",
    doi = "10.1016/j.asr.2008.11.013",
    keywords = "Atmospheric chemistry;  Electron scattering;  Ionosphere;  Models;  Nitric oxide;  Numerical models;  Ozone;  Ozone layer;  Radiation belts, Atmospheric ozone;  Energetic electron;  Meteor satellites;  Middle atmosphere;  Relativistic electron precipitation, Electrons",
    abstract = "Relativistic electrons (with energies >150 keV) which originate in the outer radiation belt and detected by the Russian 'Meteor' series of satellites have been correlated with the atmospheric total ozone data compiled by almost 90 stations located around the world within the latitude zone 40°-70°N. In more than 60% of the stations examined we have detected a clear decrease of the ozone 3-5 days after the electron flux excess. A numerical model has been applied to approximate this effect based on relativistic electron initiated nitric oxides creation in the upper mesosphere with subsequent atmospheric transport (both vertical and horizontal) towards the upper stratosphere. A first attempt of local and temporal prediction of ozone depletion because of energetic electrons impact in the middle atmosphere has been illustrated. © 2008 COSPAR."
}