Novel Dark Matter Signatures

Celestial observations often exhibit inexplicable planetary dependencies when the timing ofan observable is projected onto planetary heliocentric positions. This is possible only forincident, non-relativistic streams. Notably, the celebrated dark matter (DM) in the Universe canform streams in our vicinity with speeds of about240 km/s. Since gravitational impact scaleswith1/(velocity)2, all solar system objects, including the Sun and the Moon, act as stronggravitational lenses, with their focal planes located within the solar system. Even the Mooncan focus penetrating particles toward the Earth at speeds of up to approximately400 km/s,covering a large portion of the phase space of DM constituents. Consequently, the unexpectedplanetary dependencies of solar system observables may provide an alternative toZwicky’s tensionregarding the overestimated visible cosmic mass. In this work, an overlooked but unexpectedplanetary dependency of any local observable serves as an analogue to Zwicky’s cosmicmeasurements, particularly if a similar mysterious behavior has been previously noted. Thus,a persistent, unexpected planetary dependency represents a new tension between observationand expectation. The primary argument supporting DM in line with Zwicky’s paradigm is thisplanetary dependency, which, on a local scale, constitutes the novel tension between observationand expectation. In particular, the recurrent planetary dependency of diverse observables mirrorsZwicky’s cosmic tension with the overestimated visible mass. No other approach accounts for somany otherwise striking and mysterious observations in physics and medicine.