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Bibliographic Details
Main Authors: Nulens, Lukas, Chaves, Davi A. D., Reniers, Stijn, Dillemans, Ruben, Cools, Ivo P. C., Temst, Kristiaan, Raes, Bart, Van Bael, Margriet J., Van de Vondel, Joris
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2505.02090
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author Nulens, Lukas
Chaves, Davi A. D.
Reniers, Stijn
Dillemans, Ruben
Cools, Ivo P. C.
Temst, Kristiaan
Raes, Bart
Van Bael, Margriet J.
Van de Vondel, Joris
author_facet Nulens, Lukas
Chaves, Davi A. D.
Reniers, Stijn
Dillemans, Ruben
Cools, Ivo P. C.
Temst, Kristiaan
Raes, Bart
Van Bael, Margriet J.
Van de Vondel, Joris
contents The demand for cryogenic memory components is driven by the need for ultra-fast, low-power, and highly reliable computing systems. Phase slip-based devices promise to fulfill all these requirements, with potential applications in both classical and quantum information processing. However, previous implementations have faced challenges due to inefficient writing and readout schemes. In this work, we address these limitations with a simple device design and measurement techniques inspired by circuit quantum electrodynamics. We present a memory element that stores information in the winding of a high-kinetic inductance superconducting loop, inductively coupled to a coplanar waveguide resonator. Using single-shot measurements, we achieve a readout fidelity of 99.698\% with an active measurement time of just 25 ns.
format Preprint
id arxiv_https___arxiv_org_abs_2505_02090
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Nonvolatile Cryogenic Phase Slip Memory with Single-Shot Readout
Nulens, Lukas
Chaves, Davi A. D.
Reniers, Stijn
Dillemans, Ruben
Cools, Ivo P. C.
Temst, Kristiaan
Raes, Bart
Van Bael, Margriet J.
Van de Vondel, Joris
Superconductivity
The demand for cryogenic memory components is driven by the need for ultra-fast, low-power, and highly reliable computing systems. Phase slip-based devices promise to fulfill all these requirements, with potential applications in both classical and quantum information processing. However, previous implementations have faced challenges due to inefficient writing and readout schemes. In this work, we address these limitations with a simple device design and measurement techniques inspired by circuit quantum electrodynamics. We present a memory element that stores information in the winding of a high-kinetic inductance superconducting loop, inductively coupled to a coplanar waveguide resonator. Using single-shot measurements, we achieve a readout fidelity of 99.698\% with an active measurement time of just 25 ns.
title Nonvolatile Cryogenic Phase Slip Memory with Single-Shot Readout
topic Superconductivity
url https://arxiv.org/abs/2505.02090