Two-mode squeezed light in the microwave domain

Moritz Businger; Philip Krantz; Daniel Campbell; Jeffrey Grover; Archana Kamal; Fei Yan; Terry Orlando; Simon Gustavsson; William Oliver; David Hover; Vlad Bolkhovsky; Jonilyn Yoder; Chris Macklin; Kevin O'Brien; Irfan Siddiqi

Two-mode squeezed light in the microwave domain

ORAL

Abstract

We present progress in measurements of two-mode squeezing at microwave frequencies using a Josephson traveling wave parametric amplifier (JTWPA). Using the parametric nature of this device, we are able to produce correlated photons separated by a frequency of 1.6 GHz. We further explore how this can be used for high fidelity readout in superconducting qubits and other high precision measurements.

March 15, 2017, 4:06 PM – March 15, 2017, 4:18 PM

Authors

Moritz Businger
- Massachusetts Inst of Tech-MIT
Philip Krantz
- Massachusetts Inst of Tech-MIT
Daniel Campbell
- Massachusetts Inst of Tech-MIT
Jeffrey Grover
- Massachusetts Inst of Tech-MIT
Archana Kamal
- Massachusetts Inst of Tech-MIT
Fei Yan
- Massachusetts Inst of Tech-MIT
Terry Orlando
- Massachusetts Inst of Tech-MIT
Simon Gustavsson
- Massachusetts Inst of Tech-MIT
William Oliver
- Massachusetts Inst of Tech-MIT
David Hover
- Lincoln Laboratory
Vlad Bolkhovsky
- Lincoln Laboratory
Jonilyn Yoder
- Lincoln Laboratory
Chris Macklin
- University of California Berkeley
Kevin O'Brien
- University of California Berkeley
Irfan Siddiqi
- University of California Berkeley