Tunneling

Tunneling

Corpuscular Quantum Mechanics

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…

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What is wrong with Quantum Mechanics?

Quantum Mechanics does not explain the three most mysterious phenomena. 1) Single Particle Interference. (2) Correlations between particles that are separated by arbitrarily large distances. (3) Presence or tunneling of particles in classically forbidden regions. Quantum Mechanics is inconsistent Quantum Mechanics assumes a collapse of the wavefunction upon a measurement. However, the wavefunction's unitary evolution is inconsistent with the nonlinear collapse. Wavefunction can spread over arbitrarily large distances. However, experiments detect only localized whole particles. An extended wavefunction cannot collapse to a microscopically localized particle instantly. Linear superposition encodes multiple particle states in a single wavefunction. However, experiments detect only…

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