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V.P. Tritakis G.K. Korbakis P.Th. Nastos A.G. Paliatsos Yu.V. Pisanko 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2009
Precipitating electrons from the radiation belts with energies greater than from 150 keV to 5 MeV have been correlated with ozone data of a large number of stations located within 40–70° N. Energetic electrons have been collected by the low altitude polar Russian satellite METEOR while ozone data have been compiled from almost ninety (90) stations located all over the world within the latitude zone 40–70° N. 相似文献
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A Model of the Magnetic Field Long-Term Evolution at the Coronal Base and Polar Heliospheric Regions
The long-term evolution of the polar magnetic field at the coronal base induced by the first Rossby mode demonstrates the
reversal of the line-of-sight magnetic field component in polar caps and what is more the same line-of-sight magnetic polarities
in both caps (“the line-of-sight solar magnetic monopole”) at the moment of reversal.
This revised version was published online in August 2006 with corrections to the Cover Date. 相似文献
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Oleg I. Yakovlev Yuri V. Pisanko 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2018,61(1):552-566
Data from coronal radio-sounding experiments carried out on various interplanetary spacecraft are used to derive the empirical radial dependence of solar wind velocity and density at heliocentric distances from 3 to 60 solar radii for heliolatitudes below 60° and for low solar activity. The radial dependencies of solar wind power and acceleration are derived from these results. Summaries of the radial behavior of characteristic parameters of the solar wind turbulence (e.g., the spectral index and the inner and outer turbulence scales), as well as the fractional density fluctuation, are also presented. These radio-sounding results provide a benchmark for models of the solar wind in its acceleration region. 相似文献
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V.P. Tritakis Yu.V. Pisanko A.G. Paliatsos G.K. Korbakis P.Th. Nastos 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2009
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. 相似文献
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