Efficient and low-backaction quantum measurement using a chip-scale detector

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

Efficient and low-backaction quantum measurement using a chip-scale detector

ORAL

Abstract

Superconducting qubits are a leading platform for scalable quantum computing and quantum error correction. One feature of this platform is the ability to perform projective measurements orders of magnitude more quickly than qubit decoherence times. Such measurements are enabled by the use of quantum-limited parametric amplifiers in conjunction with ferrite circulators-magnetic devices which provide isolation from noise and decoherence due to amplifier backaction. Because these non-reciprocal elements have limited performance and are not easily integrated on-chip, it has been a longstanding goal to replace them with a scalable alternative. Here, we demonstrate a solution to this problem by using a superconducting switch to control the coupling between a qubit and amplifier. Doing so, we measure a transmon qubit using a single, chip-scale device to provide both parametric amplification and isolation from the bulk of amplifier backaction. This measurement is also fast, high fidelity, and has 70% efficiency, comparable to the best that has been reported in any superconducting qubit measurement. As such, this work constitutes a high-quality platform for the scalable measurement of superconducting qubits.

^*Funding from AFOSR MURI grant FA9550-15-1-0015, and NSF grant PHYS 1734006

March 19, 2021, 12:54 PM – March 19, 2021, 1:06 PM

Presenters

Eric Rosenthal
- JILA
- JILA, University of Colorado Boulder

Authors

Eric Rosenthal
- JILA
- JILA, University of Colorado Boulder
Christian M. F. Schneider
- Institute for Quantum Optics and Quantum Information
- Univ of Innsbruck
Maxime Malnou
- NIST, Boulder
- National Institute of Standards and Technology
- National Institute of Standards and Technology Boulder
Ziyi Zhao
- JILA
Felix Leditzky
- JILA
Benjamin Chapman
- Yale
- Yale University
Waltraut Wustmann
- The Laboratory for Physical Sciences
Xizheng Ma
- JILA
Daniel A Palken
- JILA
- JILA / University of Colorado, Boulder
Maximilian Zanner
- Institute for Quantum Optics and Quantum Information
- Institute for Experimental Physics, University of Innsbruck
- Univ of Innsbruck
- Experimental Physics, University of Innsbruck
Leila Vale
- NIST, Boulder
- National Institute of Standards and Technology
- NIST Boulder
Gene C Hilton
- NIST, Boulder
- National Institute of Standards and Technology
- NIST Boulder
Jiansong Gao
- NIST, Boulder
- National Institute of Standards and Technology Boulder
Graeme Smith
- JILA
- University of Colorado, Boulder
Gerhard Kirchmair
- Institute for Quantum Optics and Quantum Information
- Univ of Innsbruck
- Institute for Experimental Physics, University of Innsbruck
- University of Innsbruck
Konrad Lehnert
- JILA
- JILA, University of Colorado Boulder
- University of Colorado, Boulder
- JILA / University of Colorado, Boulder