Related papers: Casimir force inadequacy in explaining a strong attractive force in a micrometer-sized narrow-gap re-entrant cavity

Casimir force inadequacy in explaining a strong attractive force in a micrometer-sized narrow-gap re-entrant cavity

URL: http://arxiv.org/abs/2502.04237v1
Date: Thu, 06 Feb 2025 17:21:29 GMT
Title: Casimir force inadequacy in explaining a strong attractive force in a micrometer-sized narrow-gap re-entrant cavity
Authors: Giuseppe Bimonte,
Abstract summary: Pate et al. investigated a macroscopic opto-mechanical system with a narrow-gap re-entrant cavity coupled to a SiN membrane resonator coated with Au or Nb. They observed a significant increase in the membrane's effective spring constant $k_rm eff$ for sub-2-micron gaps $x$. Attributing this force solely to the thermal Casimir effect is challenged by our detailed calculations.
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Abstract: Pate et al. \cite{pate} investigated a macroscopic opto-mechanical system with a narrow-gap re-entrant cavity coupled to a SiN membrane resonator coated with Au or Nb. They observed a significant increase in the membrane's effective spring constant $k_{\rm eff}$ for sub-2-micron gaps $x$. This increase scales roughly with $x^{-4}$, suggesting an attractive force pulling the membrane towards the re-entrant Al post, with an $x^{-3}$ dependence. Attributing this force solely to the thermal Casimir effect is challenged by our detailed calculations (presented below). These calculations reveal that the Casimir force, at the investigated gap sizes, is orders of magnitude weaker than the observed force. This significant discrepancy necessitates an alternative explanation for the observed attraction.

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