Orbital Resonance and Solar Cycles

TL;DR

This paper analyzes planetary resonance cycles, especially between Earth and Venus, and their influence on Sunspot cycles and climate, revealing long-term correlations with solar and planetary angular momentum variations.

Contribution

It identifies specific planetary resonance cycles that correlate with solar activity and climate patterns, providing new insights into planetary-solar interactions over centuries.

Findings

Earth-Venus resonance influences Sunspot cycles

Jupiter-Saturn cycle correlates with climate data

Inner planets orbit heliocentrically, outer planets barycentrically

Abstract

We present an analysis of planetary moves, encoded in DE406 ephemerides. We show resonance cycles between most planets in Solar System, of differing quality. The most precise resonance - between Earth and Venus, which not only stabilizes orbits of both planets, locks planet Venus rotation in tidal locking, but also affects the Sun: This resonance group (E+V) also influences Sunspot cycles - the position of syzygy between Earth and Venus, when the barycenter of the resonance group most closely approaches the Sun and stops for some time, relative to Jupiter planet, well matches the Sunspot cycle of 11 years, not only for the last 400 years of measured Sunspot cycles, but also in 1000 years of historical record of "severe winters". We show, how cycles in angular momentum of Earth and Venus planets match with the Sunspot cycle and how the main cycle in angular momentum of the whole Solar system (854-year cycle of Jupiter/Saturn) matches with climatologic data, assumed to show connection with Solar output power and insolation. We show the possible connections between E+V events and Solar global p-Mode frequency changes. We futher show angular momentum tables and charts for individual planets, as encoded in DE405 and DE406 ephemerides. We show, that inner planets orbit on heliocentric trajectories whereas outer planets orbit on barycentric trajectories.