The photo-electric effect in the bi-layer graphite

TL;DR

This paper derives the differential probability of the photoelectric effect in bilayer graphene under extreme conditions, linking it to fundamental physics concepts and using an approach analogous to Landau's diamagnetism discovery.

Contribution

It introduces a novel theoretical framework for analyzing the photoelectric effect in bilayer graphene at low temperatures and strong magnetic fields.

Findings

Derived the differential probability expression for the effect

Linked the phenomenon to particle physics and gravity

Proposed an analogy with Landau's diamagnetism

Abstract

We derive the differential probability of the photoelectric effect realized at the very low temperature of double graphene in the very strong magnetic field. The relation of this effect to the elementary particle physics, nuclear physics and Einstein gravity is mentioned. Our approach is the analogue of the Landau discovery of the diamagnetism, where Landau supposed the parabolic dispersion relations for the model of diamagnetism.