A Novel Theory of a 4D Space: Unifying Quantum Mechanics and Relativity

Jose Oreste Mazzini

Abstract: This paper introduces a framework to the novel Theory of Space that seeks to unify quantum mechanics and special relativity by redefining the fourth dimension as an energy-dependent longitudinal parameter. The theory posits that quantum systems oscillate between observable three-dimensional (3D) space and the energetic fourth dimension ?p = C?, where ? = h/E is Planck?s periodic time. It offers a new explanation for quantum superposition, the measurement problem, and entanglement through random 3D projections from a 4D superposition, thus removing the necessity for observer-induced collapse theories or many-worlds interpretations. It resolves the wave particle duality by treating quantum oscillating space and compact entities (e.g., mass particles or pulsed fields) as coexisting. The Bell?s inequality violations are addressed via a fourth-dimensional locality during the oscillation, preserving 3D causality of entangled particles. The model also reinterprets relativistic effects as scale changes driven by energy and proposes a gravitational mechanism via an inward space flow proportional to energy content. A testable prediction is provided through a photon tunneling experiment, demonstrating sinusoidal probability variations. Additional prediction for no time dilation during free fall body?s is made. This framework offers a unified, realistic, and local description of quantum and relativistic phenomena, with implications for future experimental validation.

Keywords: Quantum mechanics, special relativity, 4D oscillation, space-time unification, quantum measurement

How to Cite?: Jose Oreste Mazzini, "A Novel Theory of a 4D Space: Unifying Quantum Mechanics and Relativity", Volume 14 Issue 7, July 2025, International Journal of Science and Research (IJSR), Pages: 1167-1169, https://www.ijsr.net/getabstract.php?paperid=SR25716054133, DOI: https://dx.doi.org/10.21275/SR25716054133