Methodology of signal spectral analysis in various Kron model geometries

TL;DR

This paper explores spectral analysis methodologies for quantum wave functions in semiconductor nanowires using classical electronic emulators based on Kron models, enabling new experimental approaches for quantum device simulation.

Contribution

It introduces a novel approach to model single-electron wave functions in nanowires with Kron-based classical hardware emulators, bridging quantum and classical modeling techniques.

Findings

Successful experimental emulation of 1D single-electron wave functions

Representation of 2D wave functions using Kron models

Potential for future quantum device experiments

Abstract

This work presents experimental and theoretical comparison in the modelling of the quantum wave function of single-electron in semiconductor nanowire via classical analog electronics based hardware emulator with the use of Kron concept. Thus we are able to express the semiconductor single-electron devices of linear or closed circle topology as present in position-based qubits that can be mapped essentially to one dimensional Kron model implemented experimentally. We have also represented a two dimensional single-electron wave function in Krons model and point out future experiments to be conducted.