NIST - National Institute of Standards and Technology
10/08/2024 | Press release | Archived content
Gated InAs quantum dots embedded in surface acoustic wave cavities for low-noise optomechanics
Published
October 8, 2024
Author(s)
Zixuan Wang, Ryan DeCrescent, Poolad Imany, Joseph Bush, Sae Woo Nam, Richard Mirin, Kevin L. Silverman
Abstract
Self-assembled InAs quantum dots (QDs) are promising optomechanical elements due to their excellent photonic properties and sensitivity to local strain fields. Microwave-frequency modulation of photons scattered from these efficient quantum emitters has been recently demonstrated using surface acoustic wave (SAW) cavities. However, for optimal performance, a gate structure is required to deterministically control the charge state and reduce charge noise of the QDs. Here, we integrate gated QDs and SAW cavities using molecular beam epitaxy and nanofabrication. We demonstrate that with careful design of the substrate layer structure, integration of the two systems can be accomplished while retaining the optimal performance of each subsystem. These results mark a critical step toward efficient and low-noise optomechanical systems for microwave-to-optical quantum transduction.
Citation
Optica Quantum
Pub Type
Journals
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Keywords
Gated InAs quantum dots, Surface Acoustic Waves, Quantum Transduction
Citation
Wang, Z. , DeCrescent, R. , Imany, P. , Bush, J. , Nam, S. , Mirin, R. and Silverman, K. (2024), Gated InAs quantum dots embedded in surface acoustic wave cavities for low-noise optomechanics, Optica Quantum, [online], https://doi.org/10.1364/OE.538480, https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=956674 (Accessed October 10, 2024)
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