Protective infrared antireflection coating based on sputtered germanium carbide

Des Gibson; Ewan Waddell; Frank Placido

doi:10.1117/12.896686

3 October 2011 Protective infrared antireflection coating based on sputtered germanium carbide

Des Gibson, Ewan Waddell, Frank Placido

Proceedings Volume 8168, Advances in Optical Thin Films IV; 816804 (2011) https://doi.org/10.1117/12.896686
Event: SPIE Optical Systems Design, 2011, Marseille, France

Abstract

This paper describes optical, durablility and environmental performance of a germanium carbide based durable antireflection coating. The coating has been demonstrated on germanium and zinc selenide infra-red material however is applicable to other materials such as zinc sulphide. The material is deposited using a novel reactive closed field magnetron sputtering technique, offering significant advantages over conventional evaporation processes for germanium carbide such as plasma enhanced chemical vapour deposition. The sputtering process is "cold", making it suitable for use on a wide range of substrates. Moreover, the drum format provide more efficient loading for high throughput production. The use of the closed field and unbalanced magnetrons creates a magnetic confinement that extends the electron mean free path leading to high ion current densities. The combination of high current densities with ion energies in the range ~30eV creates optimum thin film growth conditions. As a result the films are dense, spectrally stable, supersmooth and low stress. Films incorporate low hydrogen content resulting in minimal C-H absorption bands within critical infra-red passbands such as 3 to 5um and 8 to 12um. Tuning of germanium carbide (Ge_(1-x)C_x) film refractive index from pure germanium (refractive index 4) to pure germanium carbide (refractive index 1.8) will be demonstrated. Use of film grading to achieve single and dual band anti-reflection performance will be shown. Environmental and durability levels are shown to be suitable for use in harsh external environments.

Citation Download Citation

Des Gibson, Ewan Waddell, and Frank Placido "Protective infrared antireflection coating based on sputtered germanium carbide", Proc. SPIE 8168, Advances in Optical Thin Films IV, 816804 (3 October 2011); https://doi.org/10.1117/12.896686

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