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The study of frequency-phase synchronization in the dynamics of solar activity indices using non-equilibrium statistical physics methods
Russian version
Averkiev D. E. 1, Demin S. A. 1, Panischev O. Y. 1
1Kazan Federal University, Kazan, Russia
Email: aver263@gmail.com, serge_demin@mail.ru, opanischev@gmail.com
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Using the Memory Functions Formalism, we parameterize correlations and effects of frequency-phase synchronization, which are revealed in the Zurich series of Wolf numbers and a set of radio frequency signals in the meter range, to understand the physico-chemical processes occurring in the convective zone and the outer layers of the Solar atmosphere. We have calculated the power spectra characteristics of cross-correlation functions and memory functions, which allow us to determine the degree of frequency-phase synchronization between these signals. We have determined the types of statistical memory and spatio-temporal characteristics in simultaneously recorded signals. The results obtained will be of interest to specialists who study the mechanisms of self-organization of magnetized plasma in the Solar atmosphere and the formation of stable magnetic solar structures. Keywords: Solar activity, Memory Functions Formalism, cross-correlations, frequency-phase synchronization, effects of statistical memory, radio emission.
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