From Properties of Virtual Photon to Wave-Particle Duality
DOI:
https://doi.org/10.47363/Keywords:
Wave-Particle Duality, Entangled Quantum Objects, Quantum Correlations, Virtual Photon, Spin Supercurrent, Spin-Orbit InteractionAbstract
The aim of this work is to show that the wave properties of quantum objects are determined by the wave properties of virtual photons created by these objects: in particular, the frequency of the wave function of quantum object equals the frequency of precession of spin of virtual photon created by the quantum object. The quantum objects called as
“entangled” are objects having equal and co-oriented frequencies of precession of spin of virtual photons created by these quantum objects.
The quantum correlations between quantum objects are accomplished by spin supercurrent transferring angular momentum (angles of precession and angles of deflection) between precessing spins of virtual photons created by the objects.
The creation of interference pattern by quantum objects passing through a crystal lattice can be a result of existence of two properties of virtual photons: first, the existence of electric and spin components that might interact with the crystal lattice; secondly, these components perform periodic oscillation and the time between two such interactions
is a multiple of the oscillation period.
