<p>Recent experiments have demonstrated the successful generation and detection of moderately squeezed vacuum states with integrated photonics. However, in order to benefit from the reduced noise of highly squeezed light, many different noise sources must be mitigated. Here, we quantify the fundamental limits these noise sources impose on squeezing measurements and find surprising generality across different platforms and designs. We combine these different limitations into a simple model that provides practical guidance for the design and benchmarking of next-generation integrated squeezed-light systems.</p>

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Practical limits on integrated squeezers

  • Devin J. Dean,
  • Taewon Park,
  • Lars S. Madsen,
  • Alex Terrason,
  • Sam Robison,
  • Geun Ho Ahn,
  • Ziyu Wang,
  • Hubert S. Stokowski,
  • Luke Qi,
  • Jesse J. Slim,
  • Joel Corney,
  • Darwin Serkland,
  • Warwick P. Bowen,
  • Martin M. Fejer,
  • Amir H. Safavi-Naeini

摘要

Recent experiments have demonstrated the successful generation and detection of moderately squeezed vacuum states with integrated photonics. However, in order to benefit from the reduced noise of highly squeezed light, many different noise sources must be mitigated. Here, we quantify the fundamental limits these noise sources impose on squeezing measurements and find surprising generality across different platforms and designs. We combine these different limitations into a simple model that provides practical guidance for the design and benchmarking of next-generation integrated squeezed-light systems.