Litcius/Paper detail

Shaken and Stirred: When Bond Meets Suess–de Vries and Gnevyshev–Ohl

F. Stefani, R. Stepanov, T. Weier

2021Solar Physics32 citationsDOIOpen Access PDF

Abstract

Abstract We argue that the most prominent temporal features of the solar dynamo, in particular the Hale cycle, the Suess–de Vries cycle (associated with variations of the Gnevyshev–Ohl rule), Gleissberg-type cycles, and grand minima can all be explained by combined synchronization with the 11.07-year periodic tidal forcing of the Venus–Earth–Jupiter system and the (mainly) 19.86-year periodic motion of the Sun around the barycenter of the solar system. We present model simulations where grand minima, and clusters thereof, emerge as intermittent and non-periodic events on millennial time scales, very similar to the series of Bond events which were observed throughout the Holocene and the last glacial period. If confirmed, such an intermittent transition to chaos would prevent any long-term prediction of solar activity, notwithstanding the fact that the shorter-term Hale and Suess–de Vries cycles are clocked by planetary motion.

Topics & Concepts

PhysicsMaxima and minimaForcing (mathematics)Series (stratigraphy)AstrophysicsCHAOS (operating system)Solar SystemMotion (physics)Solar physicsCelestial mechanicsSynchronization (alternating current)Classical mechanicsNonlinear systemGlacial periodTheoretical physicsChaoticStatistical physicsAstronomyJupiter (rocket family)Solar cycleSolar variationAsteroidCosmologyAstrobiologyHoloceneAmplitudeIce ageSolar and Space Plasma DynamicsGeomagnetism and Paleomagnetism StudiesGeophysics and Gravity Measurements