Fabrication of Microgratings and their IR Diffraction Spectra

Microgratings whose diffracted field at a fixed angle generate IR spectra of $SF_6$ or $NH_3$ were fabricated by MEMS techniques for the purpose of IR correlation spectroscopy. Each micrograting was composed of 1441 reflecting lines in the area of $19.2{\times}19.2mm^2$. The depth profile of the lin...

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Veröffentlicht in:Bulletin of the Korean Chemical Society 2014, Vol.35 (3), p.908-912
Hauptverfasser: Kim, In Cheol, Choi, Eunwoo, Kim, Seong Kyu, Kang, Young Il, Kim, Taeseong, Bae, Hyo-Wook, Park, Do-Hyun
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Sprache:kor
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Zusammenfassung:Microgratings whose diffracted field at a fixed angle generate IR spectra of $SF_6$ or $NH_3$ were fabricated by MEMS techniques for the purpose of IR correlation spectroscopy. Each micrograting was composed of 1441 reflecting lines in the area of $19.2{\times}19.2mm^2$. The depth profile of the line elements was determined with a gradient searching method that was described in our previous publication (J. Mod. Opt. 2013, 60, 324-330), and was discretized into 16 levels between 0 and $6.90{\mu}m$. The diffraction field from a given depth profile was calculated with Fraunhofer equation. The fabricated microgratings showed errors in the depth and the width within acceptable ranges. As the result, the diffracted IR spectrum of each micrograting matched well with its target reference spectrum within spectral resolution of our optical setup.
ISSN:0253-2964
1229-5949