Perspectives of reactive ion etching of silicate glasses for optical microsystems

Perspectives of reactive ion etching of silicate glasses for optical microsystems

Citation

Weigel, C., Brokmann, U., Hofmann, M., Behrens, A., Rädlein, E., Hoffmann, M., Strehle, S., & Sinzinger, S. (2021). Perspectives of Reactive Ion Etching of Silicate Glasses for Optical Microsystems. Journal of Micro/Nanolithography, MEMS, and MOEMS, 1(4), 040901.
Additionally, the excerpts provide an email address for the corresponding author: christoph.weigel@tu-ilmenau.de

Keywords

 

  • optical microsystems
  • diffractive optics
  • silicate glasses
  • reactive ion etching
  • optical micro- and nanostructures
  • three-dimensional microstructuring

Brief

This article reviews the use of reactive ion etching (RIE) for fabricating micro-optical components, particularly emphasizing the potential of 3D structuring and the processing of chemically complex silicate-based substrates.

Summary

This article, published in 2021 in the Journal of Micro/Nanolithography, MEMS, and MOEMS, reviews the use of reactive ion etching (RIE) for fabricating micro-optical components and systems. The authors emphasize the challenges of RIE for complex optical materials like silicate glasses and call for a deeper understanding of the chemical and physical processes involved to improve this technology.

Here are the key takeaways:

  • RIE is well-suited for creating micro-optical elements: The technology is successfully used to fabricate high-precision microstructured optical surfaces for applications like beam shaping, beam splitting, imaging, and illumination.
  • Silicate glasses present unique challenges for RIE: Compared to simpler materials, etching silicate glasses is more complex due to their high binding energy, heterogeneous character, and the generation of non-volatile reaction products.
  • The article showcases the successful etching of various silicate glasses: The authors present their findings on deep etching fused silica, microstructuring ultra-low expansion glasses, creating 3D microstructured GRIN lenses, and plasma-supported etching of photosensitive glasses.
  • The authors also explore the fabrication of 3D microresonators: They demonstrate a method for making high-Q whispering gallery mode resonators using silicon micromachining followed by oxidation to form smooth, low-loss silica layers.

The article concludes by advocating for more research into RIE processes, particularly for complex silicate glasses. A deeper understanding of the interactions within the plasma and at the material interface is crucial to further advance the possibilities of RIE for 3D micro- and nanostructures in optical microsystems.

Origin: https://www.spiedigitallibrary.org/journals/journal-of-optical-microsystems/volume-1/issue-4/040901/Perspectives-of-reactive-ion-etching-of-silicate-glasses-for-optical/10.1117/1.JOM.1.4.040901.full

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