Abstract
In this paper, using the AGM model (Aureum Geometric Model), where geometric structures of coupled quantum oscillators represent particles, we formulate a new hypothesis about the origin of the Dark Matter (DM). Highlighting its hadronic nature, we identify the representative particle’s particular geometric structure, the “dark pion”, and calculate its mass. Finally, we propose an experiment for the detection of this particle.
Highlights
In the light of the new idea of the “geometric structure” of particles [1] [2], here we are going to review one of the fundamental issues of modern cosmology: the Dark Matter (DM)
In this paper, using the AGM model (Aureum Geometric Model), where geometric structures of coupled quantum oscillators represent particles, we formulate a new hypothesis about the origin of the Dark Matter (DM)
If we argue that the DM influences the galactic motions in the whole universe, as the Ordinary Matter (OM) in hadron form makes, we could suppose that the DM nature is “hadronic” but no baryonic [10]
Summary
In the light of the new idea of the “geometric structure” of particles [1] [2], here we are going to review one of the fundamental issues of modern cosmology: the Dark Matter (DM). This last aspect is possible because of the geometric structure of these hadrons one can associate two different configurations of coupling of the IQuO components, where the IQuO is particular quantum oscillators [2] [11] [12] [13]. In this way, the DM is indirectly visible, see ray gamma [15], which can be emitted by interactions between cosmic particles (cosmic ray) and particles (or “molecules”) of DM or.
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