Planetary relationship as a key signature from the dark sector

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Abstract

Various solar and terrestrial observables show a planetary dependency, even though there is no remote planetary force beyond the extremely feeble tidal force. The common viable explanation of the unexpected observations is planetary gravitational lensing of some generic slow stream(s) from the dark sector that can be focused within the solar system, thus pretending to be a not extant remote force. For example, the synod Jupiter-Earth-Venus strikingly coincides with the 11-year solar cycle. At the same time, Dark Matter (DM) remains elusive, while most of the investigations assume an isotropic DM distribution. Initially, the suggestion was put forward that planetary gravitational lensing of some generic invisible stream(s) results in spatiotemporally strong flux enhancements at any position of the solar system. Thus, even a tiny basal DM interaction with normal matter can occasionally result in an energy deposit far above the currently assumed thresholds. DM streams and clusters have also been independently introduced by cosmological reasoning. However, to explain the almost ubiquitous 11-year solar rhythm, including biomedicine, some generic DM stream(s) were assumed. Therefore, direct DM searches could also profit from spatiotemporally peaking time intervals appearing in other observations, which might be correlated with a direct DM search. Thus, planetary signatures have the potential to lead to a direct DM discovery, even with existing data. Among many theoretically invented particle candidates, favourite and inspiring DM constituents are given. In conclusion, a planetary dependency requires streaming matter from the dark Universe, since all objects of the solar system are effective gravitational lenses for typical DM velocities around 300 km/s. Experiments being sensitive to streams and transient events are advocated following this work.

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last seen: 2026-05-19T01:45:01.086888+00:00