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Autori principali: Shaw, Theodore, Mukhopadhyay, Debsuvra, Hao, Zhuoqun, Cochran, Josiah, Cole, Haley, Kamal, Archana, Shankar, Shyam
Natura: Preprint
Pubblicazione: 2026
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Accesso online:https://arxiv.org/abs/2603.14123
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author Shaw, Theodore
Mukhopadhyay, Debsuvra
Hao, Zhuoqun
Cochran, Josiah
Cole, Haley
Kamal, Archana
Shankar, Shyam
author_facet Shaw, Theodore
Mukhopadhyay, Debsuvra
Hao, Zhuoqun
Cochran, Josiah
Cole, Haley
Kamal, Archana
Shankar, Shyam
contents We characterize single-mode vacuum squeezing generated by a SNAIL Parametric Amplifier (SPA) operated under conditions representative of practical sensing and qubit-readout experiments. Motivated by prior expectations that Kerr-induced distortion limits squeezing in degenerate parametric amplifiers, we varied external flux and pump power to explore operating points where Kerr nonlinearity is theoretically minimized. We find that for practical applications where the squeezing frequency is fixed, the Kerr was variable by about a factor of two and the achievable squeezing showed no significant dependence on Kerr. Theoretical modeling supports this observation and indicates that baseline Kerr values in state-of-the-art SPAs are already too small to impose a practical limitation. Instead, squeezing was dominated by internal resonator loss and insertion loss in the microwave chain. These results indicate that, in practical SPAs, reducing loss, rather than suppressing Kerr, is the primary route to improved squeezing performance.
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institution arXiv
publishDate 2026
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spellingShingle Practical Limits to Single-Mode Vacuum Squeezing in a SNAIL Parametric Amplifier
Shaw, Theodore
Mukhopadhyay, Debsuvra
Hao, Zhuoqun
Cochran, Josiah
Cole, Haley
Kamal, Archana
Shankar, Shyam
Quantum Physics
We characterize single-mode vacuum squeezing generated by a SNAIL Parametric Amplifier (SPA) operated under conditions representative of practical sensing and qubit-readout experiments. Motivated by prior expectations that Kerr-induced distortion limits squeezing in degenerate parametric amplifiers, we varied external flux and pump power to explore operating points where Kerr nonlinearity is theoretically minimized. We find that for practical applications where the squeezing frequency is fixed, the Kerr was variable by about a factor of two and the achievable squeezing showed no significant dependence on Kerr. Theoretical modeling supports this observation and indicates that baseline Kerr values in state-of-the-art SPAs are already too small to impose a practical limitation. Instead, squeezing was dominated by internal resonator loss and insertion loss in the microwave chain. These results indicate that, in practical SPAs, reducing loss, rather than suppressing Kerr, is the primary route to improved squeezing performance.
title Practical Limits to Single-Mode Vacuum Squeezing in a SNAIL Parametric Amplifier
topic Quantum Physics
url https://arxiv.org/abs/2603.14123