A Lithium Niobate Electro-Optic Transducer for Quantum Networks
ORAL
Abstract
In order to create a quantum network in which superconducting qubit processors are connected over kilometer-scale distances, transducers capable of converting quantum information between microwave and optical frequencies are required to allow for fiber optical networking. We present the design and experimental demonstration of an electro-optic photon converter to connect superconducting qubit-based systems with light. We fabricate lithium niobate racetrack resonators with superconducting circuits and demonstrate microwave-to-optical photon coupling rates over 1.5 kHz at cryogenic temperatures. We characterize our transducer with resolved sideband spectroscopy to measure the electro-optically generated Stokes and anti-Stokes optical sidebands which show an extinction ratio of ~30 dB.
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Presenters
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Timothy McKenna
Stanford Univ, Stanford University
Authors
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Timothy McKenna
Stanford Univ, Stanford University
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Jeremy Witmer
Stanford Univ, Stanford University
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Rishi Patel
Stanford Univ, Stanford University
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Jason F Herrman
Stanford University
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Wentao Jiang
Stanford Univ, Stanford University
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Patricio Arrangoiz-Arriola
Stanford Univ, Stanford University
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Edward A Wollack
Stanford Univ, Stanford University
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Raphael Van Van Laer
Stanford Univ, Stanford University
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Amir Safavi-Naeini
Stanford Univ, Stanford University