Quantum Physics and Nanotechnology

TL;DR

This paper explores how quantum particles exhibit nonlocal energy transfer and simultaneous dual motion types, leading to new effects and a prototype refrigerating device based on quantum motion energy transfer.

Contribution

It introduces the concept of quantum motion energy transfer and demonstrates its practical application in a novel refrigerating device.

Findings

Quantum particles transfer nonlocal energy alongside classical kinetic energy.

New effects predicted and experimentally confirmed related to quantum motion energy.

A prototype refrigerating device utilizing quantum energy transfer was successfully tested.

Abstract

Experimental studies of infinite (unrestricted at least in one direction) quantum particle motion using probe nanotechnologies have revealed the necessity of revising previous concepts of their motion. Particularly, quantum particles transfer quantum motion nonlocality energy beside classical kinetic energy, in other words, they are in two different kinds of motion simultaneously. The quantum component of the motion energy may be quite considerable under certain circumstances. Some new effects were predicted and proved experimentally in terms of this phenomenon. A new prototype refrigerating device was tested, its principle of operation being based on the effect of transferring the quantum component of the motion energy.