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Hauptverfasser: Venugopalan, Gautam, Gratta, Giorgio
Format: Preprint
Veröffentlicht: 2024
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Online-Zugang:https://arxiv.org/abs/2411.14324
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author Venugopalan, Gautam
Gratta, Giorgio
author_facet Venugopalan, Gautam
Gratta, Giorgio
contents Microscopic devices are widely used in optomechanical experiments at the cutting-edge of precision experimental physics. Such devices often need to have high electrical conductivity but low reflectivity at optical wavelengths, which can be competing requirements for many commonly available coatings. In this manuscript, we present a technique to electroplate platinum with a highly convoluted surface on a $475\,\mathrm{μm } \, \times 500\,\mathrm{μm } \, \times 10\,\mathrm{μm }$ Silicon/Gold cantilever, preserving its electrical conductivity but reducing its reflectivity in the $0.3 - 1\,\mathrm{μm}$ range by a factor of $100$ or greater. The fact that the deposition can be done post-fabrication without damaging delicate structures makes this technique of interest to a potentially large range of experimental applications.
format Preprint
id arxiv_https___arxiv_org_abs_2411_14324
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Platinum Black for stray-light mitigation on high-aspect-ratio micromechanical cantilever
Venugopalan, Gautam
Gratta, Giorgio
Optics
Materials Science
Microscopic devices are widely used in optomechanical experiments at the cutting-edge of precision experimental physics. Such devices often need to have high electrical conductivity but low reflectivity at optical wavelengths, which can be competing requirements for many commonly available coatings. In this manuscript, we present a technique to electroplate platinum with a highly convoluted surface on a $475\,\mathrm{μm } \, \times 500\,\mathrm{μm } \, \times 10\,\mathrm{μm }$ Silicon/Gold cantilever, preserving its electrical conductivity but reducing its reflectivity in the $0.3 - 1\,\mathrm{μm}$ range by a factor of $100$ or greater. The fact that the deposition can be done post-fabrication without damaging delicate structures makes this technique of interest to a potentially large range of experimental applications.
title Platinum Black for stray-light mitigation on high-aspect-ratio micromechanical cantilever
topic Optics
Materials Science
url https://arxiv.org/abs/2411.14324