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Scalable Quantum Memory Nodes Using Nuclear Spins in Silicon Carbide

Shravan Kumar Parthasarathy, Birgit Kallinger, Florian Kaiser, Patrick Berwian, Durga Bhaktavatsala Rao Dasari, Jochen Friedrich, Roland Nagy

2023Physical Review Applied24 citationsDOI

Abstract

A distributed quantum network requires versatile and high-fidelity quantum memory nodes, but it remains challenging to make them scalable. This study investigates the use of multiple controllable quantum memories in silicon carbide---an established semiconductor material platform for various quantum technology applications---and provides a viable solution. The authors show that solid-state spins in silicon carbide are ideal quantum memories in a distributed quantum computing network, wherein a controlled generation of highly coherent qubit registers using nuclear spins is possible. This study will impact the future development of quantum networks with solid states spins as quantum memories.

Topics & Concepts

SpinsScalabilitySilicon carbideQuantum memoryQuantumMaterials scienceQuantum networkComputer scienceQuantum computerPhysicsCondensed matter physicsQuantum mechanicsComposite materialOperating systemDiamond and Carbon-based Materials ResearchQuantum and electron transport phenomenaSemiconductor materials and devices
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