Akira Kyle scite author profile

Akira Kyle

3Publications

2Citation Statements Received

81Citation Statements Given

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141

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National Institute of Standards and Technology, University of Colorado Boulder

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Entanglement Thresholds of Doubly-Parametric Quantum Transducers

Rau¹,

Kyle²,

Kwiatkowski³

et al. 2021

Preprint

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Doubly-parametric quantum transducers, such as electro-opto-mechanical devices, are quickly approaching quantum operation as decoherence mechanisms such as thermal noise, loss, and limited cooperativities are improved. These devices show potential as the critical link between quantum information contained at frequencies as disparate as those in the optical and microwave domains, thus enabling applications such as long distance networking of superconducting quantum computers. However, the requirements on the operating parameters of the transducers necessary to achieve quantum operation have yet to be characterized. In this work we find simple, explicit expressions for the necessary and sufficient conditions under which doubly-parametric transducers in the resolvedsideband, steady-state limit are capable of entangling optical and microwave modes. Our analysis treats the transducer as a two-mode bosonic Gaussian channel capable of both beamsplitter-type and two-mode squeezing-type interactions between optical and microwave modes. For the beamsplittertype interaction, we find parameter thresholds which distinguish regions of the channel's separability, capacity for bound entanglement, and capacity for distillable entanglement. By contrast, the twomode squeezing-type interaction always produces distillable entanglement with no restrictions on temperature, cooperativities, or losses. Finally, we find the entanglement breaking conditions on the reduced one-mode upconversion and downconversion channels obtained by initializing the unused input with vacuum while ignoring the unused output. These differences between the entanglement thresholds of the beamsplitter-type and two-mode squeezing-type interactions are then important considerations in the construction of larger quantum networks that integrate multiple transducers.

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Entanglement Thresholds of Doubly Parametric Quantum Transducers

et al. 2022

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Constraints on Gaussian error channels and measurements for quantum communication

et al. 2023

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Akira Kyle

Entanglement Thresholds of Doubly-Parametric Quantum Transducers

Entanglement Thresholds of Doubly Parametric Quantum Transducers

Constraints on Gaussian error channels and measurements for quantum communication

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