Non-Homogeneous Charge-Consistent Model for Acceleration of Iron in the Solar Corona |
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Authors: | Ostryakov V.M. Stovpyuk M.F. |
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Affiliation: | (1) St.-Petersburg State Polytechnical University, St.-Petersburg, 195251, Russia |
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Abstract: | Acceleration of iron ions by a spherical shock wave moving through non-homogeneous solar corona is considered. The energy dependence of the mean charge of iron, Fe(E), is determined by the characteristic acceleration time, Ta, trapping time, Ttr, and time for charge changes, Tq. The latter varies along with plasma number density during the propagation of the shock wave in the corona. Our calculations have demonstrated that adiabatic energy changes, Coulomb losses and shock broadening do not sufficiently influence the dependence Fe(E). According to our estimations, the photoionizing processes can scarcely affect the ionic states of accelerated iron, except probably for the most powerful X10 class events. |
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