Mesoscopic transport revisited

TL;DR

This paper reviews the foundational assumptions of mesoscopic transport to improve predictive modeling, aiding the transition of nanoelectronics from experimental to practical applications.

Contribution

It provides a reassessment of the basic assumptions underlying mesoscopic transport, highlighting areas for improved modeling accuracy.

Findings

Current models rely on assumptions that may limit accuracy.

Reevaluating these assumptions can enhance predictive capabilities.

Supports the development of practical nanoelectronic devices.

Abstract

Having driven a large part of the decade's progress in physics, nanoelectronics is now passing from today's realm of the extraordinary to tomorrow's commonplace. This carries the problem of turning proofs of concept into practical artefacts. Better and more sharply focussed predictive modelling will be the ultimate guide to optimising mesoscopic technology as it matures. Securing this level of understanding needs a reassessment of the assumptions at the base of the present state of the field. We offer a brief overview of the underlying assumptions of mesoscopic transport.