Efficient and low-backaction measurement of a superconducting qubit

Eric Rosenthal; Christian M. Schneider; Maxime Malnou; Ziyi Zhao; Felix Leditzky; Benjamin Chapman; Waltraut Wustmann; Xizheng Ma; Daniel A. Palken; Leila R. Vale; Gene C. Hilton; Jiansong Gao; Graeme Smith; Gerhard Kirchmair; Konrad Lehnert

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PUBLICATIONS

Efficient and low-backaction measurement of a superconducting qubit

Published

March 3, 2021

Author(s)

Eric Rosenthal, Christian M. Schneider, Maxime Malnou, Ziyi Zhao, Felix Leditzky, Benjamin Chapman, Waltraut Wustmann, Xizheng Ma, Daniel A. Palken, Leila R. Vale, Gene C. Hilton, Jiansong Gao, Graeme Smith, Gerhard Kirchmair, Konrad Lehnert

Citation

Nature Physics

Volume

126

Issue

090503

Pub Type

Journals

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DOI Link

Keywords

quantum measurement, superconducting circuits

Quantum information science and Physics

Citation

Rosenthal, E. , Schneider, C. , Malnou, M. , Zhao, Z. , Leditzky, F. , Chapman, B. , Wustmann, W. , Ma, X. , Palken, D. , Vale, L. , Hilton, G. , Gao, J. , Smith, G. , Kirchmair, G. and Lehnert, K. (2021), Efficient and low-backaction measurement of a superconducting qubit, Nature Physics, [online], https://doi.org/10.1103/PhysRevLett.126.090503 (Accessed April 25, 2024)

Created March 3, 2021, Updated December 7, 2021

Efficient and low-backaction measurement of a superconducting qubit

Author(s)

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Keywords

Citation

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