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PUBLICATIONS

Low-noise cryogenic RF/microwave amplifier characterization with a calibrated noise source

Published

Author(s)

Maxime Malnou, Trevyn Larson, John Teufel, Florent Lecocq, Joe Aumentado

Abstract

Superconducting parametric amplifiers have become a workhorse in superconducting quantum computing, however research and development of these devices has been hampered by inconsistent, and sometimes misleading noise performance characterization methodologies. The concepts behind noise characterization are deceptively simple, and there are many places where one can make mistakes, either in the measurements or interpretation and analysis. In this article we cover the basics of noise performance characterization, and the special problems it presents in parametric amplifiers with limited power handling capability. We illustrate the issues with three specific examples: a high-electron mobility transistor amplifier, a Josephson traveling-wave parametric amplifier, and a Josephson parametric amplifier. We emphasize the use of a 50 $\Ω$ shot noise tunnel junction as a broadband noise source, demonstrating its utility for cryogenic amplifier amplifications. These practical examples highlight the role of loss as well as the additional parametric amplifier 'idler' input mode.
Citation
Review of Scientific Instruments
Pub Type
Journals

Keywords

shot noise, parametric amplifiers, calibrated noise measurement
Quantum information science

Citation

Malnou, M. , Larson, T. , Teufel, J. , Lecocq, F. and Aumentado, J. (2023), Low-noise cryogenic RF/microwave amplifier characterization with a calibrated noise source, Review of Scientific Instruments (Accessed October 13, 2025)

Issues

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Created December 22, 2023, Updated January 2, 2024
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