Stochastic Model of Microparticle Scattering on a Crystal

TL;DR

This paper proposes a stochastic model for microparticle scattering on crystals, offering an alternative to wave-based theories, with results aligning well with experimental diffraction data.

Contribution

It introduces a stochastic approach to particle scattering on crystals, challenging traditional wave hypotheses and matching experimental diffraction results.

Findings

Good agreement with electron and X-ray diffraction patterns

Validates the stochastic model as an alternative to wave hypothesis

Reproduces Davisson-Germer experiment results

Abstract

In this paper, based on the analysis of the formula (2.2) for calculating the elastic scattering diagrams of microparticles on a multilayer crystal surface, derived by the author in the article [3], it is shown that the stochastic approach to solving the problem of scattering of elementary particles on crystals can serve as an alternative to the Louis de Broglie hypothesis about the wave properties of material particles. The results of calculations by formula (2.2), presented in this pa-per, are in good agreement with the experimentally obtained electron diffraction patterns and X-ray diffraction patterns and the Davisson-Germer experiments.