Corpuscular Quantum Mechanics (CQM) is a physical theory of sub-quantum phenomena. It defines the wavefunction and Schrödinger Equation as corpuscular motion’s statistical limit. In CQM, superposition and entanglement emerge as consequences of non-equilibrium dynamics of corpuscular interactions among themselves or with an external measurement apparatus. There are no waves to collapse during and after a measurement. In CQM, Corpuscles can move in classically forbidden regions without negative energies. Tunneling becomes a simple instance of corpuscular motion.
CQM is a local theory of interacting corpuscles. Its existence refutes the claims of non-locality. It shows that Bell’s Theorem, Greenberger-Horne-Zeilinger Contradiction, and the No-Cloning Theorem are irrelevant to the physics of sub-quantum phenomena. CQM reproduces quantum correlations without non-locality and exposes the invalid premises in Bell’s Theorem and its derivatives.
CQM opens up revolutionary possibilities in Quantum Computing. The CQM of superposition and entanglement shows the way for a new unit of information that is richer and resistant to decoherence above liquid nitrogen temperatures.
Corpuscular Theory of Quantum Computers and Quantum Information are coming soon!