Abstract
Abstract
Quantum transduction, the process of converting quantum signals from one form of energy to another, is an important area of quantum science and technology. The present perspective article reviews quantum transduction between microwave and optical photons, an area that has recently seen a lot of activity and progress because of its relevance for connecting superconducting quantum processors over long distances, among other applications. Our review covers the leading approaches to achieving such transduction, with an emphasis on those based on atomic ensembles, opto-electro-mechanics, and electro-optics. We briefly discuss relevant metrics from the point of view of different applications, as well as challenges for the future.
Funder
Alliance for Quantum Technologies’ (AQT) Intelligent Quantum Networks and Technologies (INQNET) research program
Marie Sklodowska Curie fellowship
Natural Sciences and Engineering Research Council of Canada
DOE/HEP QuantISED program grant, QCCFP
ARL-CDQI
Quantum Alberta
National Science Foundation
Caltech PMA prize postdoctoral fellowship
Alberta Major Innovation Fund
Subject
Electrical and Electronic Engineering,Physics and Astronomy (miscellaneous),Materials Science (miscellaneous),Atomic and Molecular Physics, and Optics
Cited by
145 articles.
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