# Josephson thermal memory

**Authors:** Claudio Guarcello, Paolo Solinas, Alessandro Braggio, Massimiliano Di, Ventra, Francesco Giazotto

arXiv: 1706.05323 · 2018-01-22

## TL;DR

This paper introduces a superconducting thermal memory device utilizing thermal hysteresis in a flux-controlled SQUID, enabling thermal logic states with fast operation and potential for energy harvesting.

## Contribution

It proposes a novel superconducting thermal memory based on flux-controlled thermal bistability in a SQUID, with a practical readout and fast operation.

## Key findings

- Memory writing time ~0.2 ns for Nb-based SQUID
- Thermal bistability enables distinguishable logic states
- Potential for thermal energy harvesting in superconducting circuits

## Abstract

We propose a superconducting thermal memory device that exploits the thermal hysteresis in a flux-controlled, temperature-biased superconducting quantum-interference device (SQUID). This system reveals a flux-controllable temperature bistability, which can be used to define two well-distinguishable thermal logic states. We discuss a suitable writing-reading procedure for these memory states. The time of the memory writing operation is expected to be on the order of ~0.2 ns, for a Nb-based SQUID in thermal contact with a phonon bath at 4:2 K. We suggest a non-invasive readout scheme for the memory states based on the measurement of the effective resonance frequency of a tank circuit inductively coupled to the SQUID. The proposed device paves the way for a practical implementation of thermal logic and computation. The advantage of this proposal is that it represents also an example of harvesting thermal energy in superconducting circuits.

## Full text

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## Figures

11 figures with captions in the complete paper: https://tomesphere.com/paper/1706.05323/full.md

## References

58 references — full list in the complete paper: https://tomesphere.com/paper/1706.05323/full.md

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Source: https://tomesphere.com/paper/1706.05323