Effective quantum number for describing nanosystems

TL;DR

This paper extends a universal effective quantum number method to describe nanosystems with lower symmetry, aiming for a simple, universal, and information-retaining parametrization.

Contribution

The paper generalizes the effective quantum number approach to non-centrally symmetric nanosystems, enhancing its applicability.

Findings

Successfully adapted the quantum number for lower symmetry systems

Maintains essential information with few parameters

Provides a unified description for diverse nanosystems

Abstract

An enormous variety of quantum nanoobjects and nanosystems calls for the development of new approaches to their description and parametrization. Corresponding methods should be simple, universal enough and ensuring the retention of essential part of information at small number of parameters. A universal effective quantum number was introduced earlier and successfully used for describing centrally symmetric systems. But in most cases nanosystems own a lower symmetry. In the present article we generalize and adapt this method for such systems.