Revolution of S-stars and oscillation of solar and terrestrial observables: nonrandom coincidence of periods

TL;DR

This paper reports a remarkable coincidence between the orbital periods of S-stars near the Galactic Center and oscillation periods of solar and terrestrial observables, proposing a dark matter modulation hypothesis for this phenomenon.

Contribution

It introduces the novel idea that S-star orbital dynamics may influence solar and terrestrial oscillations through dark matter flow modulation.

Findings

Coincidence of S-star periods with solar and terrestrial oscillations

Hypothesis linking dark matter flow modulation to observed periodicities

Proposed nonrandom connection between Galactic Center dynamics and Earth phenomena

Abstract

A striking coincidence of revolution periods of S-stars orbiting a supermassive black hole at the Galactic Center of the Milky Way and oscillation periods of such solar and terrestrial observables as the sunspot number, the geomagnetic field Y-component and the global temperature is established on basis of the corresponding experimental data. Rejecting randomness of this discovered coincidence, we put forward a hypothesis that modulation of dark matter flows in the Milky Way by the S-stars is responsible for such a frequency transfer from the Galactic Center to the Solar System.