Аннотация:
Рассмотрена оптимизация нанооптического пропускающего спектрального фильтра. Структура рассчитанного устройства учитывает особенности последующего изготовления данного фильтра методом наноимпринтинга. Оптимизация фильтра выполнена на вычислительном кластере с использованием параллельного асинхронного стохастического метода. Приведен анализ погрешностей изготовления рассчитанной наноструктуры, которые характерны для метода наноимпринтинга.
Abstract:
Optimization of nano-optical spectral transmission filter is considered. Structure of the designed device takes into account details of its subsequent fabrication by nanoimprinting lithography. The filter optimization performed on computational cluster with parallel asynchronous stochastic method. Analysis of fabrication of the designed filter with nanoimprinting lithography is shown.
Ключевые слова
:
нанооптика, спектральный фильтр, наноимпринтинг, стохастические методы оптимизации, параллельные вычисления, асинхронный алгоритм.
Key words:
nanooptics, spectral filter, nanoimprinting, stochastic optimization methods, parallel calculation, asynchronous algorithm.
Литература:
- Guo, L.Jay Progress in nanoimprint technology and its applications. // Guo, J. Phys. D: Appl. Phys. - 2004. - P. 123-141.
- Color filter incorporating a subwavelength patterned grating in poly silicon / Yeo-Taek Yoon, Hong-Shik Lee, Sang-Shin Lee, Sang Hoon Kim, Joo-Do Park, Ki-Dong Lee // Optics Express. - 2008. - Vol. 16, No. 4.
- Two-dimensional photonic crystal color filter development / Eun-Hyoung Cho, Hae-Sung Kim, Byoung-Ho Cheong, Prudnikov Oleg, Wenxu Xianyua, Jin-Seung Sohn, Dong-Joon Ma, Hwan-Young Choi, No-Cheol Park, Young-Pil Park // Optics Express. - 2009. - Vol. 17, No. 10.
- Fabrication of Transmission Color Filters Using Silicon Subwavelength Gratings on Quartz Substrates / Yoshiaki Kanamori, Masaya Shimono, and Kazuhiro Hane // IEEE Photonics Technology Letters. - 2006, October 15. - Vol. 18, No. 20.
- Ye, Y. Color filter based on a two-dimensional submicrometer metal grating / Yan Ye, Yun Zhou, and Linsen Chen // Applied Optics. - 2009. - Vol. 48, No. 27.
- Magnusson, R. New principle for optical filters / R. Magnusson and S.S. Wang // Appl. Phys. Lett. - 1992. - V. 61. - P. 1022-1024.
- Moharam, M.G. Stable implementation of the rigorous coupled-wave analysis for surface-relief gratings: enhanced transmittance matrix approach / M.G. Moharam, Drew A. Pommet, and Eric B. Grann // J. Opt. Soc. Am. A. - 1995, May. - V. 12(5). - P. 1077-1086.
- Peng, S. Efficient implementation of rigorous coupled-wave analysis for surface-relief gratings / S. Peng, G.M. Morris // J. Opt. Soc. Am. A. - 1995. - V. 12(5). - P.1087-1096.
- Li, L. Use of Fourier series in the analysis of discontinuous periodic structures / Lifeng Li // J. Opt. Soc. Am. A. - 1996. - V. 13(9). - P. 1870-1876.
- Babin, S. SCATT: software to model scatterometry using the rigorous electromagnetic theory / S. Babin, L. Doskolovich, Y. Ishibashi, A. Ivanchikov, N. Kazanskiy, I. Kadomin. A. Mikami, Y. Yamazaki // Proc. SPIE. - 2009. - Vol. 7272, Advanced Lithography. - P. 72723X. - DOI:10.1117/12.816904.
- Безус, Е.А. Расчет дифракционных структур для фокусировки поверхностных электромагнитных волн / Е.А. Безус, Л.Л. Досколович, Н.Л. Казанский, В.А. Сойфер, С.И. Харитонов, М. Пицци, П. Перло // Компьютерная оптика. - 2009. - Т. 33, № 2. - C. 185-192.
- Казанский, Н.Л. Расчет оптимальных пересечений фотонно-кристаллических волноводов методом передаточной матрицы / Н.Л. Казанский, П.Г. Серафимович, С.И. Харитонов // Известия Самарского научного центра РАН. - 2002. - Том 4, № 2. - C. 300-307.
- Волотовский, С.Г. Методологические аспекты создания параллельных приложений в области компьютерной оптики и обработки изображений / С.Г. Волотовский, Н.Л. Казанский, С.Б. Попов, П.Г. Серафимович, В.А. Сойфер, В.А. Фурсов // Труды научно-методической конф. «Телематика 2002», СПб., 2002. - С. 163-165.
- Казанский, Н.Л. Математическое моделирование оптических систем - Самара: СГАУ, 2004. - 240 с.
- Shokooh-Saremi, M. Particle swarm optimization and its application to the design of diffracttion grating filters / M. Shokooh-Saremi and R. Magnusson// Optics Letters, - 2007. - V. 32, No. 8. - P. 894-896.
- Koh, B.-I. Parallel asynchronous particle swarm optimization / Byung-Il Koh, Alan D. George1, Raphael T. Haftka and Benjamin J. Fregly // Int. J. Numer. Meth. Engng. - 2006. - V. 67. -P. 578-595.
- Brueck, S.R.J. Optical and Interferometric Lithography - Nanotechnology Enablers, Proc. IEEE. -2005. -Vol. 93. -№. 10/ -P.1704-1721.
References:
- Guo, L.Jay Progress in nanoimprint technology and its applications // J. Phys. D: Appl. Phys. - 2004. - P. 123-141.
- Color filter incorporating a subwavelength patterned grating in poly silicon / Yeo-Taek Yoon, Hong-Shik Lee, Sang-Shin Lee, Sang Hoon Kim, Joo-Do Park, Ki-Dong Lee // Optics express. - 2008. - Vol. 16, No. 4.
- Two-dimensional photonic crystal color filter development / Eun-Hyoung Cho, Hae-Sung Kim, Byoung-Ho Cheong, Prudnikov Oleg, Wenxu Xianyua, Jin-Seung Sohn, Dong-Joon Ma, Hwan-Young Choi, No-Cheol Park, Young-Pil Park // Optics express. - 2009. - Vol. 17, No. 10.
- Fabrication of Transmission Color Filters Using Silicon Subwavelength Gratings on Quartz Substrates / Yoshiaki Kanamori, Masaya Shimono, and Kazuhiro Hane // IEEE photonics technology letters. - 2006, October 15. - Vol. 18, No. 20.
- Ye, Y. Color filter based on a two-dimensional submicrometer metal grating / Yan Ye, Yun Zhou, and Linsen Chen // Applied optics. - 2009. - Vol. 48, No. 27.
- Magnusson, R. New principle for optical filters / R. Magnusson and S.S. Wang // Appl. Phys. Lett. - 1992. - V. 61. - P. 1022-1024.
- Moharam, M.G. Stable implementation of the rigorous coupled-wave analysis for surface-relief gratings: enhanced transmittance matrix approach / M.G. Moharam, Drew A. Pommet, and Eric B. Grann // J. Opt. Soc. Am. A. - 1995, May. - V. 12(5). - P. 1077-1086.
- Peng, S. Efficient implementation of rigorous coupled-wave analysis for surface-relief gratings / S. Peng, G.M. Morris // J. Opt. Soc. Am. A. - 1995. - V. 12(5). - P.1087-1096.
- Li, L. Use of Fourier series in the analysis of discontinuous periodic structures / Lifeng Li // J. Opt. Soc. Am. A. - 1996. - V. 13(9). - P. 1870-1876.
- Babin, S. SCATT: software to model scatterometry using the rigorous electromagnetic theory / S. Babin, L. Doskolovich, Y. Ishibashi, A. Ivanchikov, N. Kazanskiy, I. Kadomin. A. Mikami, Y. Yamazaki // Proc. SPIE. - 2009. - Vol. 7272, Advanced Lithography. - P. 72723X. - DOI:10.1117/12.816904.
- Bezus, E.A. Diffraction structures calculation for focusing of surface electromagnetic waves / E.A. Bezus, L.L. Doskolovich, N.L. Kazanskiy, V.A. Soifer, S.I. Kharitonov, M. Pizzi, P. Perlo // Computer Optics. - 2009. - V. 33, N 2. - P. 185-192. - (in Russian)
- Kazanskiy, N.L. Calculation of optimal crosssections of photonic crystals waveguides by transfer matrix method / N.L. Kazanskiy, P.G. Serafimovich, S.I. Kharitonov // Izvestia of Samara Science Center RAS. - 2002. - V. 4, N 2. - P. 300-307. - (in Russian)
- Volotovsky, S.G. Methological topics of development parallel applications for computer optics and image processing fields, (in Russian) / S.G. Volotovsky, N.L. Kazanskiy, S.B. Popov, P.G. Serafimovich, V.A. Soifer, V.A. Fursov // Proc. Conf. “Telematica 2002”, St?Peterburg, 2002. - P. 163-165.
- Kazansky, N.L. Mathematical Modeling of Optical Systems - Samara: SSAU, 2004. - 240 p.
- Shokooh-Saremi, M. Particle swarm optimization and its application to the design of diffracttion grating filters / M. Shokooh-Saremi and R. Magnusson// Optics Letters, - 2007. - V. 32, No. 8. - P. 894-896.
- Koh, B.-I. Parallel asynchronous particle swarm optimization / Byung-Il Koh, Alan D. George1, Raphael T. Haftka and Benjamin J. Fregly // Int. J. Numer. Meth. Engng. - 2006. - V. 67. -P. 578-595.
- Brueck, S.R.J. Optical and Interferometric Lithography - Nanotechnology Enablers, Proc. IEEE, 2005, Vol. 93, No. 10, P.1704-1721.
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