Surface Acoustic Wave Cavities and InAs Quantum Dots for Quantum Transduction

Autry, T.M.; Berweger, S.; Sletten, L.; Mirin, R.P.; Kabos, P.; Lehnert, K.; Silverman, K.L.

doi:10.1364/CLEO_QELS.2020.FTh4D.6

Surface Acoustic Wave Cavities and InAs Quantum Dots for Quantum Transduction

May, 2020

Contribution to:

- CLEO
,
- CLEO

Published: 2020
and
Published: May, 2020

DOI:

10.1364/CLEO_QELS.2020.FTh4D.6

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Abstract: (OSA Publishing)

We demonstrate progress in developing a new microwave-optical quantum transducer. We demonstrate focusing and stable surface acoustic wave cavities at 3.4 GHz and characterize the acoustic performance. This work is a contribution of the National Institute of Standards and Technology; not subject to copyright in the United States of America.

Indium arsenide
Microwave photonics
Optical resonators
Quantum dots
Quantum information
Surface waves
Wavefronts
Superconducting microwave devices
Cavity resonators
Optical reflection

References(7)

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