Time interval and lattice vibration in Raman effect, photoelectric effect and plane mirror reflection

TL;DR

This paper theoretically calculates the time intervals between photons and electrons in Raman effect, photoelectric effect, and mirror reflection using physics principles, considering lattice vibrations as phonons and interactions as gravitational.

Contribution

It introduces a theoretical method to determine these time intervals by applying physics principles to phenomena previously lacking such measurements.

Findings

Calculated time intervals for Raman, photoelectric, and mirror reflection effects.

Established a link between lattice vibrations and phonon particles.

Proposed gravitational interaction as a model for photon-electron interactions.

Abstract

Time interval between the incident and scattered photon in Raman effect and absorption of photon and emission of electron in photoelectric effect has not been determined till now. This is because there is no such high level instrument discovered till now to detect time interval to such a small level. But this can be calculated theoretically by applying a basic principle of physics like impulse is equal to the change in momentum. Considering the collision between electron and photon as perfect inelastic collision in photoelectric effect, elastic and inelastic collision in Raman effect and elastic collision in plane mirror reflection and the interaction between electron and photon as strong gravitational interaction we calculate the required time interval. During these phenomena there is lattice vibration which can be quantized as phonon particles.