A compact design for the Josephson mixer: The lumped element circuit

J. D. Pillet; E. Flurin; F. Mallet; B. Huard

doi:10.1063/1.4922188

A compact design for the Josephson mixer: The lumped element circuit

J. D. Pillet
, E. Flurin
, F. Mallet
, B. Huard

Research output: Contribution to journal › Article › peer-review

Abstract

We present a compact and efficient design in terms of gain, bandwidth, and dynamical range for the Josephson mixer, the superconducting circuit performing three-wave mixing at microwave frequencies. In an all lumped-element based circuit with galvanically coupled ports, we demonstrate nondegenerate amplification for microwave signals over a bandwidth up to 50 MHz for a power gain of 20 dB. The quantum efficiency of the mixer is shown to be about 70%, and its saturation power reaches -112 dBm.

Original language	English
Article number	222603
Journal	Applied Physics Letters
Volume	106
Issue number	22
DOIs	https://doi.org/10.1063/1.4922188
Publication status	Published - 1 Jun 2015

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10.1063/1.4922188

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title = "A compact design for the Josephson mixer: The lumped element circuit",

abstract = "We present a compact and efficient design in terms of gain, bandwidth, and dynamical range for the Josephson mixer, the superconducting circuit performing three-wave mixing at microwave frequencies. In an all lumped-element based circuit with galvanically coupled ports, we demonstrate nondegenerate amplification for microwave signals over a bandwidth up to 50 MHz for a power gain of 20 dB. The quantum efficiency of the mixer is shown to be about 70\%, and its saturation power reaches -112 dBm.",

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AU - Huard, B.

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AB - We present a compact and efficient design in terms of gain, bandwidth, and dynamical range for the Josephson mixer, the superconducting circuit performing three-wave mixing at microwave frequencies. In an all lumped-element based circuit with galvanically coupled ports, we demonstrate nondegenerate amplification for microwave signals over a bandwidth up to 50 MHz for a power gain of 20 dB. The quantum efficiency of the mixer is shown to be about 70%, and its saturation power reaches -112 dBm.

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A compact design for the Josephson mixer: The lumped element circuit

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