Halving the Casimir force with conductive oxides: experimental details

TL;DR

This paper provides detailed experimental methodology and analysis demonstrating that indium-tin-oxide coatings can significantly reduce the Casimir force compared to gold, with implications for nanotechnology applications.

Contribution

It offers a comprehensive account of the experimental setup, calibration, and data analysis for measuring the Casimir force with ITO coatings, extending previous findings.

Findings

ITO coating halves the Casimir force compared to gold

Demonstrates stability and reproducibility of the measurement setup

Provides detailed characterization of sample properties

Abstract

This work is an extended version of a paper published last year in Physical Review Letters [S. de Man et al., Phys. Rev. Lett. 103, 040402 (2009)], where we presented measurements of the Casimir force between a gold coated sphere and a plate coated with either gold or an indium-tin-oxide (ITO) layer. The experiment, which was performed in air, showed that ITO is sufficiently conducting to prevent charge accumulation, but still transparent enough to halve the Casimir attraction when compared to gold. Here, we report all the experimental details that, due to the limited space available, were omitted in the previous article. We discuss the performance of our setup in terms of stability of the calibration procedure and reproducibility of the Casimir force measurement. We also introduce and demonstrate a new technique to obtain the spring constant of our force sensor. Furthermore, we present a thorough description of the experimental method, a comprehensive explanation of data elaboration and error analysis, and a complete characterization of the dielectric function and of the surface roughness of the samples used in the actual experiment.