A study of evolution of near-earth daemon's fluxes with using Dark Electron Multipliers (DEMs)
E. M. Drobyshevski, M. E. Drobyshevski, S. A. Ponyaev
TL;DR
This study investigates the temporal evolution of near-Earth daemon fluxes using Dark Electron Multipliers, revealing how objects transition from heliocentric orbits to Earth-crossing orbits and eventually sink into Earth's interior.
Contribution
It introduces a method using DEMs to track flux changes and describes the evolution of near-Earth daemon populations over time.
Findings
Near-Earth daemon flux peaks in March.
Objects from NEACHOs form GESCOs during March.
GESCO population diminishes by end of April.
Abstract
DEMs have been used to experimental studying the temporal evolution of the March maximum of fluxes of near-Earth daemons. It is shown that part of objects from near-Earth almost circular heliocentric orbits (NEACHOs), from which a rather intense flux proceeds during only about four weeks, forms in the second half of March the population in geocentric Earth-surface-crossing orbits (GESCOs). The resistance of the Earth's matter results in that GESCO objects sink into the Earth's interior, so that the GESCO population nearly disappears by the end of April.
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Taxonomy
TopicsSolar and Space Plasma Dynamics · Dark Matter and Cosmic Phenomena · Geomagnetism and Paleomagnetism Studies