TITLE:
Quantum Interference without Wave-Particle Duality
AUTHORS:
Román Castañeda, Giorgio Matteucci, Raffaella Capelli
KEYWORDS:
Electron Interference, Molecule Interference, Two-Point Correlation, Wave-Particle Duality
JOURNAL NAME:
Journal of Modern Physics,
Vol.7 No.4,
February
26,
2016
ABSTRACT: Interference of light and material particles is described with a unified model which does not need to assume the wave-particle duality. A moving particle is associated with a region of spatial correlated points named coherence cone. Its geometry depends on photon or particle momentum and on the parameters of the experimental setup. The final interference pattern is explained as a spatial distribution of particles caused by the coherence cone geometry. In the present context, the wave front superposition principle, wave-particle duality and wave-collapse lose their meaning. Fits of observed single electron and single molecule interference patterns together with the simulation of expected near-field molecule interference (Talbot carpet) demonstrate the model validity.