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Superconducting circuitry for quantum electromechanical systems

Superconducting circuitry for quantum electromechanical systems
Superconducting circuitry for quantum electromechanical systems

Superconducting systems have a long history of use in experiments that push the frontiers of mechanical sensing. This includes both applied and fundamental research, which at present day ranges from quantum computing research and e orts to explore Planck-scale physics to fundamental studies on the nature of motion and the quantum limits on our ability to measure it. In this paper, we first provide a short history of the role of superconducting circuitry and devices in mechanical sensing, focusing primarily on efforts in the last decade to push the study of quantum mechanics to include motion on the scale of human-made structures. This background sets the stage for the remainder of the paper, which focuses on the development of quantum electromechanical systems (QEMS) that incorporate superconducting quantum bits (qubits), superconducting transmission line resonators and flexural nanomechanical elements. In addition to providing the motivation and relevant background on the physical behavior of these systems, we discuss our recent efforts to develop a particular type of QEMS that is based upon the Cooper-pair box (CPB) and superconducting coplanar waveguide (CPW) cavities, a system which has the potential to serve as a testbed for studying the quantum properties of motion in engineered systems.
Lahaye, M.D.
b92ef0cc-96b4-44e2-bab6-cd55df9f00ae
Rouxinol, F.
ecc639b3-86db-484d-a6c6-6648d7a0964e
Hao, Y.
d74e6f55-15ee-4b7e-ae81-622ad1e76019
Shim, S.-B.
31ee3c93-ce90-46e0-b602-b8dc9526c416
Irish, E.K.
b78b8d7c-c747-4437-bb6f-189186713998
Lahaye, M.D.
b92ef0cc-96b4-44e2-bab6-cd55df9f00ae
Rouxinol, F.
ecc639b3-86db-484d-a6c6-6648d7a0964e
Hao, Y.
d74e6f55-15ee-4b7e-ae81-622ad1e76019
Shim, S.-B.
31ee3c93-ce90-46e0-b602-b8dc9526c416
Irish, E.K.
b78b8d7c-c747-4437-bb6f-189186713998

Lahaye, M.D., Rouxinol, F., Hao, Y., Shim, S.-B. and Irish, E.K. (2015) Superconducting circuitry for quantum electromechanical systems. In Proceedings of SPIE - The International Society for Optical Engineering. 20 pp . (doi:10.1117/12.2182719).

Record type: Conference or Workshop Item (Paper)

Abstract


Superconducting systems have a long history of use in experiments that push the frontiers of mechanical sensing. This includes both applied and fundamental research, which at present day ranges from quantum computing research and e orts to explore Planck-scale physics to fundamental studies on the nature of motion and the quantum limits on our ability to measure it. In this paper, we first provide a short history of the role of superconducting circuitry and devices in mechanical sensing, focusing primarily on efforts in the last decade to push the study of quantum mechanics to include motion on the scale of human-made structures. This background sets the stage for the remainder of the paper, which focuses on the development of quantum electromechanical systems (QEMS) that incorporate superconducting quantum bits (qubits), superconducting transmission line resonators and flexural nanomechanical elements. In addition to providing the motivation and relevant background on the physical behavior of these systems, we discuss our recent efforts to develop a particular type of QEMS that is based upon the Cooper-pair box (CPB) and superconducting coplanar waveguide (CPW) cavities, a system which has the potential to serve as a testbed for studying the quantum properties of motion in engineered systems.

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More information

Published date: 21 May 2015
Venue - Dates: SPIE Sensing Technology + Application, , Baltimore, United States, 2015-05-21 - 2015-05-25

Identifiers

Local EPrints ID: 495319
URI: http://eprints.soton.ac.uk/id/eprint/495319
DOI: doi:10.1117/12.2182719
PURE UUID: 3b197698-1457-44e0-a8c6-b560d3e1249d
ORCID for E.K. Irish: ORCID iD orcid.org/0000-0003-0113-0977

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Date deposited: 08 Nov 2024 17:50
Last modified: 09 Nov 2024 02:48

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Contributors

Author: M.D. Lahaye
Author: F. Rouxinol
Author: Y. Hao
Author: S.-B. Shim
Author: E.K. Irish ORCID iD

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