Dark Matter-Baryonic Matter Coupling, and Tensor Wave, Quantum Holographic Imaging (2025)

Abstract

Ean Mikale

The search for a deeper understanding of Dark Matter and Baryonic Matter interactions, has led to the experimental observations of Dark Matter and Baryonic Matter relationships, characteristics, and parameters using Quantum-Wave Computation. This more granular and varied approach, utilizing Quantum Holography, as well as Tensor-Wave imaging, to discover Baryonic and Dark Matter interactions, shows promise. With the repeated observation of these interactions, we sought to gain a deeper understanding of the visual underpinnings of Dark Matter. Our experimental attempts are efforts to explore novel approaches at conceptualizing Dark Matter, as well as observing possible interactions with Baryonic Matter, in a way which is easily converted into an acceptable format for processing by the human-eye. This effort led to unique experiments covering various attempts, failures, and success, exploring cutting-edge methodologies towards uncovering Digital Twin imagery of Dark Matter. The photography of the quantum-level interaction, is a repeatable dimensionality of reality, in all its complexity and simplicity, as we expose quantum and wave-field interactions in the following experimental results. (167 words)

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