Designing Wideband Visible Antireflection Coating Using Spiral Search Method
スポンサーリンク
概要
- 論文の詳細を見る
A synthesis method based on a spiraling search algorithm is applied to design a low-loss normal-incidence wideband visible antireflection coating. The design algorithm of the spiraling search is straightforward and the resultant visible antireflection (AR) performance is fairly good. It was shown that the average visible spectral reflectivity over the 400–750 nm region of the final design, obtained by the spiraling search method for a two-material 50-layer system, can be reduced to lower than 0.044%, that the maximum visible reflectivity can be reduced to less than 0.44%, and that the residual reflectivity in the mainly visible region of 415–740 nm can be reduced to below than 0.066%.
- Published by the Japan Society of Applied Physics through the Institute of Pure and Applied Physicsの論文
- 2008-03-25
著者
-
Liou Yeuh-Yeong
Institute of Electronic Engineering, Chienkuo Technology University, No. 1, Jieh Shou Northern Road, Chang-Hua 500, Taiwan, Republic of China
-
Liou Yeuh-Yeong
Institute of Electronic Engineering, Chienkuo Technology University, Changhua 500, Taiwan, R.O.C.
-
Wei Zhi-Wei
Institute of Mechatronoptic Systems, Chienkuo Technology University, No. 1, Chieh Shou N. Rd., Changhua 500, Taiwan, Republic of China
関連論文
- Phase-Shifting Ellipsometer
- Optimization of a Broadband Visible or Near-Infrared Antireflection Coating Design Using Recurrent Circling Search Algorithm
- Fabrication of Wide-Angle and Wideband Visible Antireflection Coating on Flexible Poly(ether sulfone) Substrate Using Ion-Assisted Deposition
- Implementation of Universal Broadband Visible Antireflection Coating for Various Glass Substrates Using Ion-Assisted Deposition
- Design and Implementation of Wide-Angular Universal Broadband Visible Antireflection Coating for Various Substrates
- Optimization of Broadband Visible or Near Infrared Antireflection Coating Design by Scanning Search Method
- Designing Wideband Visible Antireflection Coating Using Spiral Search Method