TEMPORAL MECHANICS: D-Theory as a Critical Upgrade to Our Understanding of the Nature of Time (2025) by Alex M. Vikoulov (PDF)
This research paper explores the intricate nature of time, challenging the classical view of it as a linear, immutable dimension. Drawing from advancements in quantum mechanics, cognitive science, and computational theories, Temporal Mechanics redefines time as an emergent property rather than a fundamental construct of the universe. The paper introduces D-Theory of Time, also referred to as Quantum Temporal Mechanics (QTM), positing that the flow of time arises from complex interactions between information, change, and perception. It delves into the implications of these findings, suggesting that time may be far more dynamic and interconnected with the processes of reality than previously thought. QTM may be regarded as a novel interpretation of quantum mechanics, offering a fresh perspective on the role of time as an emergent and dynamic construct within the quantum framework. Beyond theoretical exploration, the paper examines practical implications, including the potential for manipulating time through technologies like Quantum AI and Reversible Quantum Computing. By bridging scientific disciplines and incorporating cutting-edge research, Temporal Mechanics provides a transformative perspective on the universe’s temporal fabric. This work not only reimagines the role of time in shaping our reality but also opens new pathways for understanding the interplay between information, matter, and the very essence of existence.