Physics
Scientific paper
Mar 1987
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1987soph..112....1w&link_type=abstract
Solar Physics (ISSN 0038-0938), vol. 112, no. 1, 1987, p. 1-15. NASA-supported research.
Physics
10
Galactic Cosmic Rays, Particle Flux Density, Solar Neutrinos, Sunspot Cycle, Regression Analysis, Temporal Distribution
Scientific paper
It has been proposed that the observed solar neutrino flux exhibits important correlations with solar particles, galactic cosmic rays, and the sunspot cyc1e~ with the latter correlation being opposite in phase and lagging behind the sunspot cycle by about one year. Re-examination of the data-available interval 1971-1981, employing various tests of statistical significance, however, suggests that such a claim is, at present, unwarrantable. For example, on the associations of solar neutrino flux and cosmic-ray flux with the Ap geomagnetic index, neither were found to be statistically significant (at the 95% level of confidence), regardless of the choice of lag (- 1, 0, or + 1 yr). Presuming linear fits, all correlations with Ap had coefficients of determination (r2, where r is the linear correlation coefficient) less than 16%, meaning that > 16% of the variation in the selected test parameters could be explained by the variation in Ap. Similarly, on the associations of solar neutrino flux and cosmic ray flux with sunspot number, only the latter association proved to be of statistical importance. Using the best linear fits, the correlation between yearly averages of solar neutrino flux and sunspot number had r2 ≍ 19%, the correlation between weighted moving averages (of order 5) of solar neutrino flux and sunspot number had r2 ≍ 45%, and the correlation between cosmic-ray flux and sunspot number had r2 ≍ 76%, all correlations being inverse associations. Solar neutrino flux was found not to correlate strongly with cosmic-ray flux, and the Ap geomagnetic index was found not to correlate strongly with sunspot number.
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