• Title/Summary/Keyword: Micrograting

검색결과 2건 처리시간 0.197초

Fabrication of Microgratings and their IR Diffraction Spectra

  • Kim, In Cheol;Choi, Eunwoo;Kim, Seong Kyu;Kang, Young Il;Kim, Taeseong;Bae, Hyo-Wook;Park, Do-Hyun
    • Bulletin of the Korean Chemical Society
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    • 제35권3호
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    • pp.908-912
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    • 2014
  • 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.

마이크로 홀로그래픽 시스템에서 미디어의 소진효과 (Effect of dynamic range consumption for microholographic data storage system)

  • 김도형;민철기;조장현;김낙영;박경수;박노철;양현석;박영필
    • 정보저장시스템학회논문집
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    • 제7권1호
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    • pp.31-35
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    • 2011
  • In microholographic data storage system (MDSS), compact recording is required to achieve high capacity.[1] When the data is recorded, neighbor monomer is also affected by reaction at the focal point.[2,3] This unintended process caused more monomer consumption and degradation of total capacity. To avoid this extra consumption of dynamic range, it is required to define the effective dynamic range for MDSS. In this paper, we experimentally investigate the relation between dynamic range consumption and micro grating formation. Dynamic range consumption was monitored by real time read-out system. Micrograting was recorded with different consumption ratio and compared by diffraction efficiency of track direction. Finally, we define suitable dynamic range for MDSS.