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Auteurs principaux: Wang, Chiao-Hsuan, Zhang, Mengzhen, Jiang, Liang
Format: Preprint
Publié: 2022
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Accès en ligne:https://arxiv.org/abs/2202.06960
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author Wang, Chiao-Hsuan
Zhang, Mengzhen
Jiang, Liang
author_facet Wang, Chiao-Hsuan
Zhang, Mengzhen
Jiang, Liang
contents Coherently converting quantum states between distinct elements via quantum transducers remains a crucial yet challenging task in quantum science. Especially in demand is quantum transduction between optical frequencies, which are ideal for low-loss transmission across long distances, and microwave frequencies, which admit high-fidelity quantum operations. We present a generic formalism for $N$-stage quantum transduction that covers various leading microwave-to-optical, microwave-to-microwave, and optical-to-optical linear conversion approaches. We then identify effective circuit models and the resulting generalized matching conditions for achieving maximum conversion efficiency. The generalized matching condition requires resistance matching as well as frequency matching beyond the usual resonant assumption, with a simple impedance-matched transmission interpretation. Our formalism provides a generic toolbox for determining experimental parameters to realize efficient quantum transduction and suggests different regimes of non-resonant conversions that might outperform all-resonant ones.
format Preprint
id arxiv_https___arxiv_org_abs_2202_06960
institution arXiv
publishDate 2022
record_format arxiv
spellingShingle Generalized matching condition for unity efficiency quantum transduction
Wang, Chiao-Hsuan
Zhang, Mengzhen
Jiang, Liang
Quantum Physics
Coherently converting quantum states between distinct elements via quantum transducers remains a crucial yet challenging task in quantum science. Especially in demand is quantum transduction between optical frequencies, which are ideal for low-loss transmission across long distances, and microwave frequencies, which admit high-fidelity quantum operations. We present a generic formalism for $N$-stage quantum transduction that covers various leading microwave-to-optical, microwave-to-microwave, and optical-to-optical linear conversion approaches. We then identify effective circuit models and the resulting generalized matching conditions for achieving maximum conversion efficiency. The generalized matching condition requires resistance matching as well as frequency matching beyond the usual resonant assumption, with a simple impedance-matched transmission interpretation. Our formalism provides a generic toolbox for determining experimental parameters to realize efficient quantum transduction and suggests different regimes of non-resonant conversions that might outperform all-resonant ones.
title Generalized matching condition for unity efficiency quantum transduction
topic Quantum Physics
url https://arxiv.org/abs/2202.06960