Abstract

We suggest a mathematical formulation which shows that gravity is the materialization of energy in space, which at zero energy input (Eap = 0) in the form of entanglement of virtual space and time phases returns an event to the initial background state with restoration of the original elementary space-time frame. Based on the suggested model, the matter-antimatter relation results from the non-uniform energy conservation principle while satisfying the conservation of energy within the boundary-mapped space-time frame. The suggested approach shows that the generation of mass is the requirement of energy conservation. The mathematic model of energy conservation involves the conjugation of the dynamic local state of space and time variables with the local energy-momentum relation, which at different energy inputs can operate at the small scale of quantum physics and the large scale of relativity. The suggested theory shows that commutation of local spacetime position and energy-momentum exchange interaction is the only way for conservation of energy and momentum within a discrete space-time frame.

Keywords: Relativity, quantum mechanics, conservation of energy, origin of space-time
