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Main Authors: Boselli, Matteo, Grebel, Joel, Peugeot, Ambroise, Dassonneville, Rémy, Huard, Benjamin, Bienfait, Audrey
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2503.00190
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author Boselli, Matteo
Grebel, Joel
Peugeot, Ambroise
Dassonneville, Rémy
Huard, Benjamin
Bienfait, Audrey
author_facet Boselli, Matteo
Grebel, Joel
Peugeot, Ambroise
Dassonneville, Rémy
Huard, Benjamin
Bienfait, Audrey
contents Amplifying microwave signals with a noise close to the minimum imposed by quantum mechanics is now routinely performed with superconducting quantum devices. In particular, Josephson-based Traveling Wave Parametric Amplifiers (JTWPA) have shown record bandwidth with added noise close to the quantum limit. In this work, we report the appearance of echo signals emitted by JTWPAs driven by trains of high-power pulses exceeding their dynamical range. we explore the case of weak signals generated through high power pulses. By sending a train of such high-power pulses, beyond the 1 dB compression point of such amplifiers, we observe the appearance of echoes, solely due to the JTWPA. These echoes have micro-second coherence and we attribute their origin to microscopic defects in the amplifier dielectric layer. By analyzing the power and the coherence of the echo signal as a function of temperature, we estimate the dielectric loss brought by these defects, and their impact on the JTWPA quantum efficiency. We introduce a mitigation technique (BLAST) to prevent the appearance of these echoes, consisting in an additional high-power tone sent concurrently with each pulse. We demonstrate that it suppresses the spurious defect signals and we recover the typical gain and noise figure within 95% of their low-power values in 300 ns. These results can help to extend the use of JTWPAs in experiments where fast high-power sequences are necessary to generate weak microwave responses from the system under study, and also provide a path towards characterizing in-situ the dielectric losses of these devices.
format Preprint
id arxiv_https___arxiv_org_abs_2503_00190
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Observation and mitigation of microwave echoes from dielectric defects in Josephson traveling wave amplifiers
Boselli, Matteo
Grebel, Joel
Peugeot, Ambroise
Dassonneville, Rémy
Huard, Benjamin
Bienfait, Audrey
Quantum Physics
Mesoscale and Nanoscale Physics
Materials Science
Amplifying microwave signals with a noise close to the minimum imposed by quantum mechanics is now routinely performed with superconducting quantum devices. In particular, Josephson-based Traveling Wave Parametric Amplifiers (JTWPA) have shown record bandwidth with added noise close to the quantum limit. In this work, we report the appearance of echo signals emitted by JTWPAs driven by trains of high-power pulses exceeding their dynamical range. we explore the case of weak signals generated through high power pulses. By sending a train of such high-power pulses, beyond the 1 dB compression point of such amplifiers, we observe the appearance of echoes, solely due to the JTWPA. These echoes have micro-second coherence and we attribute their origin to microscopic defects in the amplifier dielectric layer. By analyzing the power and the coherence of the echo signal as a function of temperature, we estimate the dielectric loss brought by these defects, and their impact on the JTWPA quantum efficiency. We introduce a mitigation technique (BLAST) to prevent the appearance of these echoes, consisting in an additional high-power tone sent concurrently with each pulse. We demonstrate that it suppresses the spurious defect signals and we recover the typical gain and noise figure within 95% of their low-power values in 300 ns. These results can help to extend the use of JTWPAs in experiments where fast high-power sequences are necessary to generate weak microwave responses from the system under study, and also provide a path towards characterizing in-situ the dielectric losses of these devices.
title Observation and mitigation of microwave echoes from dielectric defects in Josephson traveling wave amplifiers
topic Quantum Physics
Mesoscale and Nanoscale Physics
Materials Science
url https://arxiv.org/abs/2503.00190