The neglected quantum effect on CuO2 plane

TL;DR

This paper investigates a quantum effect in CuO2 planes by modeling a lattice with charged ions, revealing a negative energy gap that could indicate a new superconductivity mechanism.

Contribution

It introduces a novel lattice model with charge distribution and deformation, proposing a new mechanism for superconductivity based on quantum effects in CuO2 planes.

Findings

Lattice exhibits a negative energy gap larger than normal metals.

Lattice deformation acts as an electric dipole, influencing electronic properties.

Suggests a new superconductivity mechanism based on quantum effects.

Abstract

The neglected quantum effect On CuO2 plane--the transition of electron between neighbored ions is studied. To study this affection, an ideal square lattice composed of triangle unit is proposed and studied. Every unit in the square lattice has three ions and only one ion charge, the ion charge is distributed on one A ion and two B ions with different possibility, and the A-B bond length is far less than the distance between nearest units. The position difference between A-B ions results in a lattice deformation with fixed amplitude, and can be treated as an electricity dipole lattice. It is proved that such lattice has a negative energy gap that can be much larger than that of normal metal superconductor, and suggests a new superconductor mechanism.