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September 17, 2025

Parametric amplification via coupling linear and nonlinear superconducting resonators

Key Points

Gains exceeding 15 dB were achieved through parametric amplification in both resonator types, enhancing performance.
Utilizing three-wave mixing processes allowed for both single-mode and two-mode parametric amplification with quantum limit noise performance.
The innovative coupling of a nonlinear resonator and a linear resonator enabled efficient flux-tunable mode separation.
This system indicates potential advancements in photon storage and release using squeezed photons in superconducting circuits.

Abstract

We experimentally demonstrate a coupled superconducting resonator system in which a superconducting quantum interference device (SQUID) modulated nonlinear resonator is capacitively coupled to a fixed-frequency linear resonator. This configuration enables flux-tunable mode separation and parametric interactions between spatially separated modes. By exploiting the SQUID-induced nonlinearity, we achieve both single-mode (degenerate) and two-mode (nondegenerate) parametric amplification via three-wave mixing processes. Gains exceeding 15 dB are obtained in both the tunable resonator and the fixed frequency linear resonator with near quantum limit noise performance. Our device may provide an attractive solution for storing and releasing squeezed photons.

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Parametric amplification via coupling linear and nonlinear superconducting resonators

Key Points

Abstract

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