Magnetic-Flux-Flow Diagrams for Design and Analysis of Josephson Junction Circuits

TL;DR

This paper introduces magnetic-flux-flow diagrams as a novel graphical tool for designing and analyzing Josephson junction circuits, providing new physical insights and complementing traditional methods.

Contribution

The paper presents MFF diagrams as a new graphical approach that visualizes flux transfer and circuit behavior in Josephson junction circuits, enhancing analysis capabilities.

Findings

MFF diagrams effectively represent Josephson circuit behaviors.

Flux transfer visualization aids circuit design and analysis.

MFF diagrams complement conventional analysis methods.

Abstract

Josephson junction circuits, such as superconducting quantum interference devices (SQUIDs) and single-flux-quantum (SFQ) circuits, have been applied in both analog and digital systems for their ultralow-noise, high-speed, and power-efficient features. However, their analyses are not well supported by the conventional circuit diagrams and the charge-based analysis methods, due to the Josephson effects and flux quantization phenomena. This article introduces a type of magnetic-flux-flow (MFF) diagrams for the design and analysis of Josephson junction circuits. The MFF diagram of a Josephson junction circuit is the graphical expression of circuit equations. It not only gives the behaviors of Josephson junctions and superconducting loops new physical meanings, but also visualizes how the flux quanta are transferred among superconducting loops. The advantages of MFF diagrams are demonstrated in the design and analysis of typical Josephson junction circuits. It is shown that the MFF diagram and flux-based analysis method are the indispensable complement to the conventional circuit methodologies for Josephson junction circuits.