Neutrino-Flux Variability, Nuclear-Decay Variability, and Their Apparent Relationship

Homestake, Gallex and GNO data reveal variability of the solar neutrino flux. Kamiokande records for 1996-2001 oscillations at 9.43 12.6 yr$^{-1}$, well within a range (6-16 yr$^{-1}$) that, according to helioseismology, may be related internal rotation. A nuclear-decay experiment Brookhaven National Laboratory (for 1982-86) reveals strong 11.2 13.2 yr$^{-1}$. Similar are found in measurements conducted by A. Parkhomov. By contrast, S. Pomme points out that experiments standards laboratories tend not exhibit variability. The most extensive series comes from an initiated G. Steinitz Geological Survey Israel (2007-16), which recorded 340,000 radon-related each 3 gamma detectors environmental sensors. Analysis subset 85,000 hourly number oscillation frequencies compatible with influences There is no correlation between measurements. magnetic field lead modulation RSFP (Resonant Spin-Flavor Precession) mechanism. triplet (7.43, 8.43 attributed region (presumably core) sidereal rotation rate yr$^{-1}$ axis roughly orthogonal photosphere. This suggests Sun had its origin more than one stage condensation interplanetary material (one on top another), could present-day layers different metallicities, rates axes. peak occurs near local midnight early June, suggestive role cosmic neutrinos. These neutrinos provide mass dark matter order 0.1 eV.