Theory of Spatial Materialization of Quantum Possibilities in an Infinite Space

Abstract

This paper introduces the Theory of Spatial Materialization of Quantum Possibilities in an Infinite Space, proposing a novel perspective on the realization of quantum probabilities. Traditional interpretations of quantum mechanics, such as the Copenhagen interpretation and the Many-Worlds hypothesis, approach quantum probabilities as either collapsing into a single observable state or manifesting across parallel universes. This theory suggests an alternative: in an infinite space, quantum possibilities materialize simultaneously in distinct spatial regions, without requiring collapse or parallel universes. Building on principles of infinite space and inevitable probabilities, the theory reinterprets phenomena such as superposition and cosmological configurations, offering a unified framework for understanding how quantum possibilities are distributed in space. The implications extend to questions of causality, time, and the nature of observable reality, while challenging traditional assumptions in quantum mechanics. Although speculative, this approach provides fertile ground for interdisciplinary exploration, bridging cosmology, philosophy of science, and quantum mechanics.

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