Demonstration of Improved Sensitivity in Recovering a Displaced Cavity State with Josephson Parametric Amplifiers

ORAL

Abstract

Josephson parametric amplifiers (JPAs) can efficiently generate and amplify squeezed microwave light [1], useful in improving the measurement of the state of a resonant cavity. If deployed in a cavity-based search for dark matter axions, squeezing is capable of accelerating the search by increasing the signal-to-noise ratio of the microwave photons generated from axion conversion, over a broad bandwidth [2]. In a demonstration of this, we operate a pair of JPAs, flux-pumped to minimize microwave losses, with an overcoupled, empty cavity placed between them. Into this cavity, we inject a microwave tone through a separate, weakly-coupled port, and observe that squeezing significantly enhances this signal’s visibility.

[1] Mallet, F. et al. Phys. Rev. Lett. 106, 220502 (2011).
[2] Zheng, H. et al. preprint arXiv:1607.02529 (2016).

*This work was supported by the National Science Foundation, under grants PHY-1607223 and PHY-1734006, and by the Heising-Simons Foundation under grant 2014-183.

Presenters

  • Maxime Malnou

    • Univ of Colorado - Boulder
    • JILA

Authors

  • Maxime Malnou

    • Univ of Colorado - Boulder
    • JILA

  • Daniel Palken

    • Univ of Colorado - Boulder
    • JILA

  • Leila Vale

    • NIST - Boulder
    • NIST

  • Gene Hilton

    • NIST - Boulder

  • Konrad Lehnert

    • Univ of Colorado - Boulder
    • JILA, Univ of Colorado - Boulder
    • JILA
    • JILA and Department of Physics, University of Colorado
    • JILA, NIST, Univ of Colorado - Boulder
    • JILA: NIST & CU Boulder