Quantum Boundaries in General Quantum Mechanics
Abstract General Quantum Mechanics (GQM), as proposed by Kiril Chukanov, introduces a framework that challenges conventional physics by incorporating quantum boundaries as fundamental limits shaping the structure and behavior of the universe. These boundaries define zones of ordered matter, influence particle duality, and govern cosmic phenomena such as quasars and free energy processes. This paper […]
World Constants in General Quantum Mechanics: Foundations of the Universe
Abstract General Quantum Mechanics (GQM) extends beyond conventional physics by introducing a set of world constants that govern the structure and dynamics of the universe. These constants, discovered through theoretical derivations and empirical observations, include minimum quantum accelerations, force ratios, velocities, and spatial dimensions for both the Proton Matter Universe (PMU) and Electron Matter Universe […]
General Quantum Mechanics (GQM): Elastic Vacuum Gravitation, Quantum Acceleration Scales, and the Dual-Matter Universe
Abstract We introduce an innovative reformulation of physics, which we term General Quantum Mechanics (GQM). This groundbreaking theory seamlessly integrates the foundational principles of quantum mechanics, the nature of gravitation, and the expansive field of cosmology within a cohesive framework of elastic vacuum. At the heart of GQM lies a fascinating duality involving two interacting […]
