This is an outdated version published on 2020-09-08. Read the most recent version.

A possibly mechanical optics

Authors

DOI:

https://doi.org/10.15536/reducarmais.4.2020.1935

Keywords:

Huygens-Fresnel Principle, Refraction, Young’s double slit pattern, Snell’s law, Complementarity Principle.

Abstract

This paper investigates the refraction/reflection laws and the double slit interference pattern for particles. We used boundary conditions that consider the discrete and vibrant structure of the matter with which the particles interact, resulting in their scattering, enabling the use of the Huygens and Huygens-Fresnel principles for particles. We managed to obtain results that generalize Snell’s law, the reflection law and Young’s double slit pattern, for regions very close to the refraction/reflection interface and the slits. The choice made of the scattering used, seems to be the key for a mechanical explanation of light and Young’s double slit pattern, including the case of the particles passing through the slit one at a time, therefore, it challenges the validity of the Niels Bohr’s complementarity principle and might be the missing link that reconnects without hierarchies both Classical Mechanics and Quantum Mechanics.

Downloads

Download data is not yet available.

Author Biography

Paulo Cesar Facin, Universidade Estadual de Ponta Grossa/Departamento de Física

Licenciado em física (UFMS)

Mestre em física (UFPB)

Doutor em engenharia mecânica (UFSC)

professor do departamento de física (UEPG)

References

HECHT, EUGENE. Optics: São Francisco: Pearson Education, 2002.

DAVISSON, C., GERMER, L. H. Diffraction of electrons by a crystal of nickel. Physical Review, vol 30 n. 06, 705 – 741 p, December 1927.

HUYGENS, CHRISTIAAN. Treatise on Light: N. York (Leyden): Dover, 1690.

Published

2020-09-08

Versions

How to Cite

Facin, P. C. (2020). A possibly mechanical optics. Educar Mais, 4(3), 460–480. https://doi.org/10.15536/reducarmais.4.2020.1935

Issue

Section

Articles