Difference between revisions of "Sub Microscopic Description of the Diffraction Phenomenon"

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==Abstract==
 
==Abstract==
  
It is shown that a detailed sub microscopic consideration denies the waveparticle duality for both material particles and field particles, such as photons. In the case of particles, their ψ-wave function is interpreted as the particle's field of inertia and hence this field is characterized by its own field carriers, inertons. Inertons and photons are considered as quasi-particles, excitations of the real space constructed in the form of a tessel-lattice. The diffraction of photons is explained as the deflection of photons from their path owing to transverse flows of inertons, which appear in the substance under consideration at the decay of non-equilibrium phonons produced by transient photons.[[Category:Scientific Paper]]
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It is shown that a detailed sub microscopic consideration denies the waveparticle duality for both material particles and field particles, such as photons. In the case of particles, their ψ-wave function is interpreted as the particle's field of inertia and hence this field is characterized by its own field carriers, inertons. Inertons and photons are considered as quasi-particles, excitations of the real space constructed in the form of a tessel-lattice. The diffraction of photons is explained as the deflection of photons from their path owing to transverse flows of inertons, which appear in the substance under consideration at the decay of non-equilibrium phonons produced by transient photons.
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[[Category:Scientific Paper|sub microscopic description diffraction phenomenon]]
  
 
[[Category:Structure]]
 
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[[Category:Electrodynamics]]
 
[[Category:Electrodynamics]]

Revision as of 11:07, 1 January 2017

Scientific Paper
Title Sub Microscopic Description of the Diffraction Phenomenon
Author(s) Volodymyr V Krasnoholovets
Keywords wave-particle, photons, inertons, diffraction of photons
Published 2010
Journal None
Volume Nonlinear Optics, Quantum Opti
Number 4
No. of pages 14
Pages 273-286

Abstract

It is shown that a detailed sub microscopic consideration denies the waveparticle duality for both material particles and field particles, such as photons. In the case of particles, their ψ-wave function is interpreted as the particle's field of inertia and hence this field is characterized by its own field carriers, inertons. Inertons and photons are considered as quasi-particles, excitations of the real space constructed in the form of a tessel-lattice. The diffraction of photons is explained as the deflection of photons from their path owing to transverse flows of inertons, which appear in the substance under consideration at the decay of non-equilibrium phonons produced by transient photons.