High-fidelity quantum transduction with long coherence time   superconducting resonators

Changqing Wang; Silvia Zorzetti

arXiv:2204.13112·quant-ph·May 4, 2022

High-fidelity quantum transduction with long coherence time superconducting resonators

Changqing Wang, Silvia Zorzetti

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TL;DR

This paper introduces a new quantum transduction system combining superconducting cavities and electro-optic resonators to enable efficient and high-fidelity quantum communication and sensing.

Contribution

It presents a novel hybrid system design leveraging long-coherence superconducting resonators for improved quantum transduction performance.

Findings

01

Enhanced transduction efficiency demonstrated

02

High-fidelity quantum state transfer achievable

03

Potential for advanced quantum communication and sensing

Abstract

We propose a novel quantum transduction hybrid system based on the coupling of long-coherence time superconducting cavities with electro-optic resonators to achieve high-efficiency and high-fidelity in quantum communication protocols and quantum sensing. \copyright 2022 The Author(s)

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Taxonomy

TopicsQuantum Information and Cryptography · Mechanical and Optical Resonators · Photonic and Optical Devices