NFDI4DS | UHH-SEMS - Publication Details

Sébastien Graveline

ORCID: 0000-0002-7736-8116

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A5026338466

Research Areas

Advanced Memory and Neural Computing
Ferroelectric and Negative Capacitance Devices
Semiconductor materials and devices

Memristor-Based Cryogenic Programmable DC Sources for Scalable In Situ Quantum-Dot Control

OPENALEX - Publications

Pierre-Antoine Mouny Yann Beilliard Sébastien Graveline Marc-Antoine Roux Abdelouadoud El Mesoudy and 6 more

Current quantum systems based on spin qubits are controlled by classical electronics located outside the cryostat. This approach creates a major wiring bottleneck, which is one of main roadblocks toward scalable computers. Thus, we propose memristor-based programmable dc source that can perform biasing dots (QDs) inside novel cryogenic would enable to control applied voltage electrostatic gates programming resistance memristors, thus storing in latter appropriate conditions form QDs. In this...

10.1109/ted.2023.3244133 article EN cc-by IEEE Transactions on Electron Devices 2023-02-20

Memristor-based cryogenic programmable DC sources for scalable in-situ quantum-dot control

OPENALEX - Publications

Pierre-Antoine Mouny Yann Beilliard Sébastien Graveline Marc-Antoine Roux Abdelouadoud El Mesoudy and 6 more

Current quantum systems based on spin qubits are controlled by classical electronics located outside the cryostat at room temperature. This approach creates a major wiring bottleneck, which is one of main roadblocks toward truly scalable computers. Thus, we propose memristor-based programmable DC source that could be used to perform biasing dots inside (i.e. in-situ). novel cryogenic would enable control applied voltage electrostatic gates programming resistance memristors, thus storing in...

10.48550/arxiv.2203.07107 preprint EN other-oa arXiv (Cornell University) 2022-01-01

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