Practical quantum teleportation with finite-energy codebooks
W. K. Yam M. Renger S. Gandorfer R. Gross K. G. Fedorov
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Abstract
Quantum communication exploits non-classical correlations to achieve efficient and unconditionally secure exchange of information. In particular, the quantum teleportation protocol allows for a deterministic and secure transfer of unknown quantum states by using pre-shared quantum entanglement and classical feedforward communication. Quantum teleportation in the microwave regime provides an important tool for high-fidelity remote quantum operations, enabling distributed quantum computing with superconducting circuits and potentially facilitating short-range, open-air microwave quantum communication. In this context, we consider practical application scenarios for the microwave analog quantum teleportation protocol based on continuous-variable states. We theoretically analyze the effect of feedforward losses and noise on teleportation fidelities of coherent states and show that these imperfections can be fully corrected by an appropriate feedforward gain. Furthermore, we consider quantum teleportation with finite-size codebooks and derive modified no-cloning thresholds as a function of the codebook configuration. Finally, we analyze the security of quantum teleportation under public channel attacks and demonstrate that the corresponding secure fidelity thresholds may drastically differ from the conventional no-cloning values. Our results contribute to the general development of quantum communication protocols and, in particular, illustrate the feasibility of using quantum teleportation in realistic microwave networks for robust and unconditionally secure communication.引用本文复制引用
W. K. Yam,M. Renger,S. Gandorfer,R. Gross,K. G. Fedorov.Practical quantum teleportation with finite-energy codebooks[EB/OL].(2025-12-29)[2026-01-18].https://arxiv.org/abs/2512.23388.学科分类
物理学/信息科学、信息技术/控制理论、控制技术
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