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Deterministic Microwave-Optical Transduction Based on Quantum Teleportation

Jing Wu, Chaohan Cui, Linran Fan, Quntao Zhuang

2021Physical Review Applied44 citationsDOI

Abstract

The coherent transduction between microwave and optical frequencies is critical to interconnect superconducting quantum processors over long distances. However, it is challenging to establish such a quantum interface with high efficiency and small added noise based on the standard direct conversion scheme. Here, we propose an electro-optic transduction system based on continuous-variable quantum teleportation. Reliable quantum-information transmission can be realized with an arbitrarily small cooperativity, in contrast to the direct conversion scheme, which requires a large minimum cooperativity. We show that the teleportation-based scheme maintains a significant rate advantage robustly for practical thermal noise and all values of cooperativity. We further investigate the performance in the transduction of complex quantum states such as cat states and Gottesman-Kitaev-Preskill (GKP) states and show that a higher fidelity can be achieved with the teleportation-based scheme. Our scheme significantly reduces the device requirement, and makes quantum transduction between microwave and optical frequencies feasible in the near future.

Topics & Concepts

Superdense codingQuantum teleportationQubitTeleportationQuantum networkPhysicsTopology (electrical circuits)CooperativityMicrowaveQuantum informationQuantumQuantum mechanicsQuantum channelMathematicsChemistryCombinatoricsBiochemistryQuantum Information and CryptographyQuantum optics and atomic interactionsMechanical and Optical Resonators
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