실리콘 프레넬 렌즈 기반 트랜스미터 광모듈의 광정렬 설계 및 특성 향상 연구
The silicon microlens is a key element in advanced optical packaging. However, the difficulty of its fabrication process and low yield have hindered the development of an silicon lens based optical device module. A silicon Fresnel lens was studied using ray tracing optical simulation, because its sm...
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| Published in | 대한금속·재료학회지, 55(11) Vol. 55; no. 11; pp. 813 - 818 |
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| Main Authors | , , , , , |
| Format | Journal Article |
| Language | Korean |
| Published |
대한금속재료학회
05.11.2017
대한금속·재료학회 |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1738-8228 2288-8241 |
| DOI | 10.3365/KJMM.2017.55.11.813 |
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| Abstract | The silicon microlens is a key element in advanced optical packaging. However, the difficulty of its fabrication process and low yield have hindered the development of an silicon lens based optical device module. A silicon Fresnel lens was studied using ray tracing optical simulation, because its small sagittal height allows easy fabrication and high yield. The Fresnel lens was constructed from reference spherical lens with a controlled zone depth and partition number. The optimum zone depth was determined by target wavelength and the refractive index of the lens. The partition number was controlled for the highest coupling efficiency. The maximum coupling efficiency varied with the radius of curvature (ROC) of the lens and the coupling efficiency of the Fresnel lens was always higher than that of a reference lens. When the ROC was 700 μm, the Fresnel lens showed a coupling efficiency of -0.331 dB while the reference lens showed -0.674 dB. It was noted that the high coupling efficiency of the Fresnel lens could be obtained for a wide range of ROCs, which is huge advantage in the design of an optical module. The superior performance of the Fresnel lens was attributed to the smaller beam waist, as analyzed by the beam synthesis propagation method. The alignment tolerance of the Fresnel lens was similar to the reference lens in lateral offset, but it exhibited tighter tolerance with longitudinal offset.
(Received May 16, 2017; Accepted July 31, 2017) |
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| AbstractList | The silicon microlens is a key element in advanced optical packaging. However, the difficulty of its fabrication process and low yield have hindered the development of an silicon lens based optical device module. A silicon Fresnel lens was studied using ray tracing optical simulation, because its small sagittal height allows easy fabrication and high yield. The Fresnel lens was constructed from reference spherical lens with a controlled zone depth and partition number. The optimum zone depth was determined by target wavelength and the refractive index of the lens. The partition number was controlled for the highest coupling efficiency. The maximum coupling efficiency varied with the radius of curvature (ROC) of the lens and the coupling efficiency of the Fresnel lens was always higher than that of a reference lens. When the ROC was 700 μm, the Fresnel lens showed a coupling efficiency of -0.331 dB while the reference lens showed -0.674 dB. It was noted that the high coupling efficiency of the Fresnel lens could be obtained for a wide range of ROCs, which is huge advantage in the design of an optical module. The superior performance of the Fresnel lens was attributed to the smaller beam waist, as analyzed by the beam synthesis propagation method. The alignment tolerance of the Fresnel lens was similar to the reference lens in lateral offset, but it exhibited tighter tolerance with longitudinal offset.
(Received May 16, 2017; Accepted July 31, 2017) The silicon microlens is a key element in advanced optical packaging. However, the difficulty of its fabrication process and low yield have hindered the development of an silicon lens based optical device module. A silicon Fresnel lens was studied using ray tracing optical simulation, because its small sagittal height allows easy fabrication and high yield. The Fresnel lens was constructed from reference spherical lens with a controlled zone depth and partition number. The optimum zone depth was determined by target wavelength and the refractive index of the lens. The partition number was controlled for the highest coupling efficiency. The maximum coupling efficiency varied with the radius of curvature (ROC) of the lens and the coupling efficiency of the Fresnel lens was always higher than that of a reference lens. When the ROC was 700 μm, the Fresnel lens showed a coupling efficiency of -0.331 dB while the reference lens showed -0.674 dB. It was noted that the high coupling efficiency of the Fresnel lens could be obtained for a wide range of ROCs, which is huge advantage in the design of an optical module. The superior performance of the Fresnel lens was attributed to the smaller beam waist, as analyzed by the beam synthesis propagation method. The alignment tolerance of the Fresnel lens was similar to the reference lens in lateral offset, but it exhibited tighter tolerance with longitudinal offset. KCI Citation Count: 2 |
| Author | Sang-wan Ryu 황인엽 류상완 하준석 Jun-seok Ha In Yup Hwang |
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| BackLink | https://www.kci.go.kr/kciportal/ci/sereArticleSearch/ciSereArtiView.kci?sereArticleSearchBean.artiId=ART002280836$$DAccess content in National Research Foundation of Korea (NRF) |
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| Snippet | The silicon microlens is a key element in advanced optical packaging. However, the difficulty of its fabrication process and low yield have hindered the... |
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| SubjectTerms | coupling efficiency fresnel lens optical packaging silicon lens 재료공학 |
| Title | 실리콘 프레넬 렌즈 기반 트랜스미터 광모듈의 광정렬 설계 및 특성 향상 연구 |
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