Towards robust coupled field induced Josephson junctions

TL;DR

This paper introduces a new approach to designing robust coupled Josephson junctions in complex electromagnetic environments, with potential applications in classical and quantum computing, and particle detection.

Contribution

It presents a novel methodology for modeling and implementing coupled field induced Josephson junctions, expanding possibilities for circuit topologies and detection methods.

Findings

Potential for new circuit topologies

Non-invasive charged particle detectors

Framework for classical and quantum computing

Abstract

The concept of coupled robust field induced Josephson junctions placed in complex electromagnetic environments is presented. Such structures are made by polarization of superconducting nanostructures by magnetic fields. The methodology of modeling of structures and possible implementations is introduced. The presented scheme is expected to implement and describe both classical and quantum computers with use of Josephson junction and artificial evolution. In such cases one can obtain unexpected new topologies of circuits that can contribute in enhancement of known and used circuit schemes. Furthermore one can obtain the non-invasive detectors of moving charged particles from robust field induced Josephson junctions which are illustrated by examples.