Towards a quantum synapse for quantum sensing

Abstract As a step in the architectural design of a quantum processing or sensing system with control and signaling, an attempt is made at putting in parallel functional properties of the random flows between neurons through electrical synapses, and quantum particle flows inside a quantum processing...

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Main Author:	L-F Pau
Format:	Article
Language:	English
Published:	Nature Portfolio 2025-04-01
Series:	Scientific Reports
Subjects:	Synapse Quantum sensors Quantum computing architecture Quantum biological computing Signaling Sensor fusion
Online Access:	https://doi.org/10.1038/s41598-025-93113-2
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author	L-F Pau
author_facet	L-F Pau
author_sort	L-F Pau
collection	DOAJ
description	Abstract As a step in the architectural design of a quantum processing or sensing system with control and signaling, an attempt is made at putting in parallel functional properties of the random flows between neurons through electrical synapses, and quantum particle flows inside a quantum processing system mimicking biological processes. Based on a simplified dynamic electrical synapse model, a quantum synapse circuit design is proposed. This is extended to the case of bidirectional flows through a synapse, highlighting the possible role of quantum synapse circuits as highly parallel controlled interfaces crucial in sensing and sensor fusion systems. A short status of the quantum simulation is provided.
format	Article
id	doaj-art-82986a8094fb4f21930dbb5ac1f101b4
institution	DOAJ
issn	2045-2322
language	English
publishDate	2025-04-01
publisher	Nature Portfolio
record_format	Article
series	Scientific Reports
spelling	doaj-art-82986a8094fb4f21930dbb5ac1f101b42025-08-20T03:07:40ZengNature PortfolioScientific Reports2045-23222025-04-0115111110.1038/s41598-025-93113-2Towards a quantum synapse for quantum sensingL-F Pau0CBS (Copenhagen, Denmark), Erasmus University (Rotterdam, Netherlands), and Upgötva AB (Stockholm, Sweden)Abstract As a step in the architectural design of a quantum processing or sensing system with control and signaling, an attempt is made at putting in parallel functional properties of the random flows between neurons through electrical synapses, and quantum particle flows inside a quantum processing system mimicking biological processes. Based on a simplified dynamic electrical synapse model, a quantum synapse circuit design is proposed. This is extended to the case of bidirectional flows through a synapse, highlighting the possible role of quantum synapse circuits as highly parallel controlled interfaces crucial in sensing and sensor fusion systems. A short status of the quantum simulation is provided.https://doi.org/10.1038/s41598-025-93113-2SynapseQuantum sensorsQuantum computing architectureQuantum biological computingSignalingSensor fusion
spellingShingle	L-F Pau Towards a quantum synapse for quantum sensing Scientific Reports Synapse Quantum sensors Quantum computing architecture Quantum biological computing Signaling Sensor fusion
title	Towards a quantum synapse for quantum sensing
title_full	Towards a quantum synapse for quantum sensing
title_fullStr	Towards a quantum synapse for quantum sensing
title_full_unstemmed	Towards a quantum synapse for quantum sensing
title_short	Towards a quantum synapse for quantum sensing
title_sort	towards a quantum synapse for quantum sensing
topic	Synapse Quantum sensors Quantum computing architecture Quantum biological computing Signaling Sensor fusion
url	https://doi.org/10.1038/s41598-025-93113-2
work_keys_str_mv	AT lfpau towardsaquantumsynapseforquantumsensing

Towards a quantum synapse for quantum sensing

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