Computer Science
Scientific paper
Apr 2003
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2003eaeja.....8169d&link_type=abstract
EGS - AGU - EUG Joint Assembly, Abstracts from the meeting held in Nice, France, 6 - 11 April 2003, abstract #8169
Computer Science
Scientific paper
Our studies of the neutron and muon components data from many observatories with different cut-off rigidities during solar cycles 19-22 have made possible to investigate the hysteresis character of the relationships between the variations in solar activity and in galactic cosmic ray intensity. We use here a special model described the connection between solar activity and CR convection-diffusion global modulation with taking into account time-lag of processes in the Heliosphere relative to the active processes on the Sun. We supposed different dimension of the modulation region and for each dimension was determined the correlation coefficient between variations of expected and observed CR intensities. We found that the maximum of correlation coefficient occurred for even cycles for about two-three times in the shorter time than for odd cycles. We came to conclusion that this difference is caused by CR drift effects: during even cycle drift effect from minimum to maximum of SA produced the small increasing of CR global modulation additional to the caused by convection-diffusion mechanism, and after maximum of SA - about the same decreasing of CR modulation. This gives sufficient decreasing of observed time-lag between CR and SA in even solar cycles. For odd solar cycles we have inverse situation: drift effect from minimum to maximum of SA produced the additional decreasing of CR global modulation caused mainly by convection-diffusion mechanism, and after maximum of SA - increasing of CR modulation. This gives sufficient increasing of observed time-lag between CR and SA in odd solar cycles. We use also data on geomagnetic cut-off rigidity change in this period. Then we reconstruct cosmic ray intensity variations in the last 400 years on the basis of solar activity and geomagnetic data with taking into account found parameters of convection-diffusion and drift mechanisms, and then compare with climate change data. Obtained results support the mechanism of space weather influence on climate change through cosmic ray intensity variations (influenced on clouding covering and reining). This research is supported partly by grants INTAS-0810 and RFFI-01-02-17580.
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