Publication: (王智明 Chih-Ming Wang)教授

一、期刊論文：

(A) [Journal Paper]

[1] Wen-Ting Kung, Yi-Hao Pai, Yu-Kuei Hsu, Chu-Hsuan Lin and Chih-Ming Wang*, “Surface Plasmon assisted Cu_xO photocatalyst for pure water splitting,” Opt. Express. 21(S2), pp. A221-A228 (2013)

[2] Sheng Fu Lin, Chih Ming Wang, Ya Lun Tsai, Ting Jou Ding, Tsung Hsun Yang, Wen Yih Chen, and Jenq Yang Chang*,” A model for fast predicting and optimizing the sensitivity of surface-relief guided mode resonance sensors,” Sensors & Actuators: B. Chemical 76, P1197-1203 (2013) (doi:10.1016/j.snb.2012.02.014)

[3] Shulin Sun, Kuang-Yu Yang, Chih-Ming Wang, Ta-Ko Juan, Wei Ting Chen, Chun-Yen Liao, Guang-Yu Guo, Lei Zhou and Din Ping Tsai, “High-efficiency Broadband Anomalous Reflection by Gradient Meta-surfaces,” Nano Lett., 12, p.6223−6229 (2012) (co-first author) (IF: = 13.198 Rank: 7/232 =3%  in MATERIALS SCIENCE, MULTIDISCIPLINARY)

[4] Chih-Ming Wang*, and Din Ping Tsai, “Plasmonic Infrared Band-stop Reflective Filter” IEEE Journal of Selected Topics in Quantum Electronics, (accepted) (2013) (invited paper) (IF: 3.78 Rank: 11/245=4% in ENGINEERING, ELECTRICAL & ELECTRONIC)

[5] Chih-Ming Wang* and Chih-Jui Yu, " Free space Plasmonic filter with Dual resonance wavelength using asymmetric T-shaped metallic array," Plasmonics, 8(2), Issue 2, pp 385-390 (2013) (June)

[6] Chih-Ming Wang*, Sheng-Han Tu, Ta-Ko Juan, Sheng-Fu Lin and Jenq-Yang Chang "Polarization dependent light extraction of a GaN light emitting diode using dark field angle-resolved photoluminescence spectrometry," Opt. Express 20(16), p. 17952 (2012)

[7] Sheng-Fu Lin, Chih-Ming Wang, Ting-Jou Ding, Ya-Lun Tsai, Tsung-Hsun Yang, Wen-Yih Chen, and Jenq-Yang Chang*, " Sensitive metal layer assisted guided mode resonance biosensor with a spectrum inversed response and strong asymmetric resonance field distribution," Opt. Express, 20(13), p. 14584 (2012)

[8] Chih-Jui Yu, Yi-Ping Liang, Hwen-Fen Hong and Chih-Ming Wang*, “Transmissive color filtering using plasmonic multilayer structure,” Opt. Eng. 51(4), 044001 (2012)

[9] Jui Wen Pan*, Jiun-Yang Huang, Chih-Ming Wang, Hwen-Fen Hong, Yi-Ping Liang, “High concentration and homogenized Fresnel lens without secondary optics element,” Opt. Commun. 284, p.4283–4288 (2011) (IF=1.552; Ranking: 23/64 = 36% in Optics,)

[10] Cheng-Wen Cheng, Mohammed Nadhim Abbas, Zi-Chang Chang, M. H. Shih,* C. M. Wang, M. C. Wu, and Yia-Chung Chang, “Angle-independent plasmonic infrared band-stop reflective filter based on the Ag/SiO₂/Ag T-shaped array,” Opt. Lett. 36(8), pp. 1440-1442 (2011) (IF: 3.059; Ranking: 6/71 = 9% in Optics,)

[11] C. M. Wang*, Y. L. Tsai, S. H. Tu, C. C. Lee, C. H. Kuo, and J. Y. Chang, “Optical properties of light emitting diodes with a cascading plasmonic grating,” Opt. Express, 18, pp. 25608-25614 (2010) (IF: 3.278; Ranking: 3/71 = 5% in Optics,)

[12] Y. L. Tsai, J. Y. Chang*, M. L. Wu, Z. R. Tu, C. C. Lee, C. M. Wang and C. L. Hsu, “Enhancing the resonance quality factor in membrane-type resonant grating-waveguide,” Opt. Lett. 35 (24), pp. 4199-4201 (2010)

[13] J. Wen Pan*, S. H. Tu, W. S. Sun, C. M. Wang, and J. Y. Chang, “Integration of Non-Lambertian LED and Reflective Optical Element as Efficient Street Lamp,” Opt. Express., 18, p. A221-A230 (2010)(IF: 3.88; Ranking: 3/64 = 5% in Optics,)

[14] C. M. Wang, H. I Huang, J. W. Pan, H. Z. Kuo, H. F. Hong, H. Y. Shin and J. Y. Chang*, “Single stage transmission type broadband solar concentrator,” Opt. Express., 18, p.A118-A125 (IF: 3.88; Ranking: 3/64 = 5% in Optics,)(2010)

[15] S. H. Tu, S. Y. Wu, Y. C. Lee, J. W. Pan, C. H. Kuo, C. M. Wang and J. Y. Chang, “Functional imprinting structures on GaN-based light emitting diodes for light pattern modulation and light extraction efficiency enhancement,” Opt. Rev. 17(4), p. 379-384 (2010) (IF=0.545; Ranking: 51/64 = 80% in Optics)

[16] C. C. Chao, C. M. Wang * and J. Y. Chang, “Spatial distribution of absorption in plasmonic thin film solar cells,” Opt. Express., 18, p. 11763-11771 (2010)(IF: 3.88; Ranking: 3/64 = 5% in Optics,)

[17] C. C. Chao, S. H. Tu, C. M. Wang*, H. I Huang, C. C, Chen and J. Y. Chang, “Impedance-matching surface plasmon absorber for FDTD siumulation,” Plasmonics, 5, p. 51-55 (2010) (IF=3.488; Ranking: 22/190 = 12% in Materials science, multidisciplinary)

[18] M. R. Shcherbakov, P. P. Vabishchevich, M. I. Dobynde, T. V. Dolgova, A. S. Sigov, C. M. Wang, D. P. Tsai, and A. A. Fedyanin, “Plasmonic Enhancement of Linear Birefringence and Linear Dichroism in Anisotropic Optical Metamaterials,” JETP Letters, 90(6), pp. 433–437. (2009) (IF=1.418; Ranking: 26/64 = 41% in Physics, Multidisciplinary)

[19] H. C. Lan, H. L. Hsiao, C. C. Chang, C. H. Hsu, C. M. Wang, and M. L. Wu*, “Monolithic integration of elliptic-symmetry diffractive optical element on silicon-based 45° micro-reflector,” Opt. Express., 17(23), p.20938-20944 (2009) (IF: 3.88; Ranking: 3/64 = 5% in Optics,)

[20] C. M. Wang*, Y. C. Chang and D. P. Tsai, “Spatial filtering by using cascading plasmonic grating,” Opt. Express., 17(8), p. 6218-6223(2009) (IF: 3.88; Ranking: 3/64 = 5% in Optics,)

[21] C. C. Chao, C. M. Wang, Y. C. Chang, and J. Y. Chang*, “Plasmonic Multilayer Structure for Ultrathin Amorphous Silicon Film Photovoltaic Cell,” Opt. Rev. 16(3), p. 343-346 (2009) (IF=0.545; Ranking: 51/64 = 80% in Optics)

[22] S. H. Tu, J. W. Pan, C. M. Wang, Y. C. Lee, and J. Y. Chang*, “New Collection Systems for Multi LED Light Engines,” Opt. Rev. 16(3) p. 318-322 (2009) (IF=0.545; Ranking: 51/64 = 80% in Optics)

[23] C. M. Wang, Y. C. Chang*, M. N. Abbas, M. H. Shih and D. P. Tsai, “T-shaped plasmonic array as a narrow-band thermal emitter or biosensor,” Opt. Express., 17(16), p. 13526-13531 (2009) (IF: 3.88; Ranking: 3/64 = 5% in Optics,) (also selected by Virtual J. Biomed. Opt. (2009)

[24] G. Adamo, K. F. MacDonald, Y. H. Fu, C. M. Wang, D. P. Tsai, F. J. García de Abajo, and N. I. Zheludev*, “Light Well: A Tunable Free-Electron Light Source on a Chip,” Phys. Rev. Lett. 103, 113901 (2009) (IF: 7.18; Ranking: 5/68 = 7% in in Physics, Multidisciplinary)

[25] C. M. Wang*, C. C. Chao, H. I Huang, B. Ung, Y. Sheng, and J. Y. Chang, “Transmission Enhancement through a Metallic Slit Assisted by Low Scattering Loss Corrugations”, Opt. Commun. 281, p.2996–2999 (2008) (IF=1.552; Ranking: 23/64 = 4% in Optics,)

[26] J. W. Pan*, S. H. Tu, C. M. Wang, and J. Y. Chang, “High efficiency pocket size projector with a compact projection lens and LED based light source system,” Appl. Opt. 47, 3406-3414 (2008) (IF=1.76; Ranking: 18/64 = 28% in Optics,)

[27] C. M. Wang*, Y. C. Chang, M. W. Tsai, Y. H. Ye, C. Y. Chen, Y. W. Jiang, S. C. Lee and D. P. Tsai, “Angular independent infrared filter assisted by localized surface plasmon polariton,” IEEE Photon. Tech. Lett. 20(13), p.1103-1105(2008) (IF= 2.353 Ranking 16/206=8% in Engineering, Electrical & electronic)

[28] C. M. Wang, C. C. Chao, H. I Huang, Y. C. Chang, D. P. Tsai and J. Y. Chang*, “Transmission enhancement through single slit embedded in plasmonic multilayer structure,” Jpn. J. Appl. Phys. 47(8) p.: 6713-6715 (2008) (IF=1.222, Ranking 26/68= 38% in PHYSICS, APPLIED)

[29] M. L. Wu*, H. C. Lan, C. M. Wang, and J. Y. Chang, “Design of Wide-Angle Low-Loss Waveguide Bends Using a Phase-Compensated Effective Microprism,” Jpn. J. Appl. Phys. 46(8), 5426, 2007(IF=1.222, Ranking 26/68= 38% in PHYSICS, APPLIED)

[30] C. M. Wang*, H. I Huang, C. C. Chao, and J. Y. Chang and Y. Sheng, “Transmission enhancement through a trench-surrounded nano metallic slit by bump reflectors,” Opt. Express. 15(6), 3496-3501, 2007. (IF: 3.88; Ranking: 3/64 = 5% in Optics,)

[31] J. W. Pan*, C. M. Wang, W. S. Sun and J. Y. Chang, “Portable digital micromirror device projector using a novel prism,” Appl. Opt., 46(22), 5097-5102, 2007(SCI/EI) (IF=1.76; Ranking: 18/64 = 28% in Optics,)

[32] J. W. Pan*, C. M. Wang, H. C. Lan, W. S. Sun and J. Y. Chang, “Homogenized LED illumination using microlens arrays for a pocket-size projector,” Opt. Express. 15(17), 10483 (2007) (IF: 3.88; Ranking: 3/64 = 5% in Optics,)

[33] C. M. Wang, Y. C. Chang*, M. W. Tsai, Y. H. Ye, C. Y. Chen, Y. W. Jiang, S. C. Lee and D. P. Tsai, “Reflection and emission properties of an infrared emitter,” Opt. Express., 15(22), 14673(2007) (IF: 3.88; Ranking: 3/64 = 5% in Optics,)

[34] C. C. Lee*, C. M. Wang, S. K. Huang, J. Y. Chang, G. C. Chi, S. C. Shu, and C. Y. Liu, “Fabrication and Tolerance Reducing of Si-Based Pickup Module for Optical Storage”, Opt. Eng., 45(7), pp. 074601-074605, Jul. 2006. (IF=0.897 Ranking 31/56=55% in OPTICS)

[35] C. M. Wang*, B. Ung, Y. Sheng, and J. Y. Chang, “Enhanced Transmission through Nano-Aperture on a Tapered Metallic Substrate“, Opt. Commun. 265(2), pp. 678-682 (2006) (IF=1.552; Ranking: 23/64 = 36% in Optics,)

[36] H. C. Lan, C. C. Cheng, C. M. Wang, M. J. Wu, and J. Y. Chang,“A Hybrid Grism-Lens Device for Diffraction Grating Demultiplexer,”Opt. Eng. 45(8), 085002 2006. (IF=0.897 Ranking 31/56=55% in OPTICS)

[37] C. L. Hsu, Y. C. Liu, C. M. Wang, M. L. Wu, Y. L. Tsai, Y. H. Chou, C. C. Lee, and J. Y. Chang, "Bulk Micromachined Optical Filter Based on Guided-Mode Resonance in Silicon Nitride Membrane," IEEE J. Lightwave Tech., 24(4), pp. 1922-1928 (2006). (IF=2.736; Ranking: 8/64 = 13% in Optics,)

[38] M. L. Wu, C. L. Hsu, Y. C. Liu, C. M. Wang, and J. Y. Chang, “Silicon-Based and Suspended Membrane Type of Guided-Mode Resonance Filters with the Spectrum-Modifying Layer Design,” Opt. Lett., 31(22) pp. 3333-3335, (2006). (IF=3.772; Ranking: 4/64 = 6% in Optics,)

[39] J. Y. Chang, C. M. Wang, C. C. Lee, H. F. Shih and M. L. Wu, “Realization of Free-Space Optical Pickup Heads with Stacked Si-based Phase Elements”, IEEE Phot. Tech. Lett. 17(1), p. 214-216(2005) (IF= 2.353 Ranking 16/206=8% in ENGINEERING, ELECTRICAL & ELECTRONIC)

[40] C. M. Wang*, Y. C. Chang, C. D. Sung, H. T. Tien, C. C. Lee, and J. Y. Chang, “Anisotropic Wet Etching on Birefringent Calcite Crystal”, Appl. Phys. A., 84(4), p. 851-854(2005) (IF= 1.739, Ranking 23/84=27% in PHYSICS, APPLIED)

[41] C. M. Wang*, J. Y. Chang, C. L. Hsu, C. C. Lee and J. C. Yang, “Si-Based Guided-Mode Resonance Filter on a Microoptical Bench”, Electronics Letters ,  40(21), p. 1335 – 1336 (2004) (IF= 1.14, Ranking 108/229=47% in ENGINEERING, ELECTRICAL & ELECTRONIC)

[42] C. Y. Huang, C. M. Wang, C. F. Chu and J. Y. Chang, “Fast response in reduced Rh-doped barium titanate crystals at 100^oC”, Opt. Eng. 43, 1988(2004) (IF=0.897 Ranking 31/56=55% in OPTICS)

[43] J. Y. Chang, C. Y. Huang, C. F. Chu, C. M. Wang, and C. C. Sun, “The Photorefractive Properties of Two Series of BaTiO3 Crystals Annealed in Temperatures of 900^oC and 1000^oC”, Jpn. J. Appl. Phys. 42, 5140 (2003) (IF=1.222, Ranking 26/68= 38% in PHYSICS, APPLIED)

[44] Y. C. Chang, H. T. Tien, C. D. Sung, C. C. Lee, C. M. Wang, and  J. Y. Chang, “ A Micropolarizer Fabricated from CaCO3 by Anisotropic Wet Etching”, Appl. Opt. 42 p:4423 (2003) (IF=1.76; Ranking: 18/64 = 28% in Optics,)

[45] C. C. Lee, Y. C. Chang, C. M. Wang, J. Y. Chang, G. C. Chi, “Silicon-based transmissive diffractive optical element”, Opt Lett., 28 p. 1260 (2003) (IF=3.772; Ranking: 4/64 = 6% in Optics,)

[Selected Journal Paper]

[1] Chih-Ming Wang, Yia-Chung Chang*, Mohammed Nadhim Abbas, Ming-Hsiung Shih and Din Ping Tsai, “T-shaped plasmonic array as a narrow-band thermal emitter or biosensor,” selected by Virtual J. Biomed. Opt. (2009)

B、不具匿名審查制度之期刊」

[1] Chih-Ming Wang*, “Exploiting plasmonics in active photonic device applications,” SPIE Newsroom (2011)

二、研討會論文：

[International Conference Paper]

[1] Shulin Sun, Kuang Yu Yang, Chih-Ming Wang, Ta-Ko Juan, Wei Ting Chen, Chun Yen Liao, Qiong He, Shiyi Xiao, Wen-Ting Kung, Guang-Yu Guo, Lei Zhou, and Din Ping Tsai, “High-efficiency Anomalous Light Reflections by Gradient Meta-surfaces,” PIERS 2013

[2]  W. E. Kung, Y. H. Pai, Y. K. Hsu, C. H. Lin and C. M. Wang*, “Plasmonic enhanced CuxO photocatalyst for water splitting,” Optics & Photonics Taiwan, International Conference 2012 (OPTIC 2012, formerly OPT 2012)

[3]  C. Y. Wang and C. M. Wang* “Polarization-independent and angle-independent optical filter using plasmonic nanoporous Au film” Optics & Photonics Taiwan, International Conference 2012 (OPTIC 2012, formerly OPT 2012)

[4]  C. M. Wang*, “Multi-resonance wavelength using asymmetric plasmonic T-shaped array” International Symposium on NanoPhotonics 2012 (ISONP 2012) (2012)

[5]  C. M. Wang*, “Optical properties and applications of plasmonic nanoporous Au film” Nanophotonics Asia 2012 (2012)

[6]  Kuang-Yu Yang, Shulin Sun, Chih-Ming Wang, Ta-Ko Juan,Wei Ting Chen, Lei Zhou, Din Ping Tsai, " Anomalous reflection based on gradient metamaterial", 2nd Frontiers in Optics and Photonics FOP (2012) (poster award)

[7]  Wen-Ting Kung, Chih-Jui Yu and Chih-Ming Wang*, " Polarization-independent plasmonic porous Au absorber," JSAP-OSA 2012 Autumn Meeting (2012)

[8]  Da-Ge Ruan, Wen-Ting Kung, Chih-Ming Wang*, Shien-Der Tzeng, I-Chi Ni, “Optical properties of InGaN/GaN MQWs LED patterned with 1D Plasmonic nanoparticle grating,” ThinFilms 2012 (2012)

[9]  Chih-Jui Yu and C. M. Wang*, “Color Filtering Using Plasmonic Multilayer Structure” Nanoelectronics Conference (INEC), 2011 IEEE 4th International, p. 1 - 2 (2011)

[10]  C. M. Wang* , “Exploiting plasmonics in active photonic device applications: in the point of view of surface plasmon heat dissipation,” Nanophotonics in Asia 2011

[11]  C.-Y. Wei, C.-H. Lin, C.-M. Wang, Y.-C. Pan, “Efficiency Improvement of HIT Solar Cells on p-type Si Wafers", ICSI7 (2011)

[12]  C. H. Tai, C. H. Lin, C. M. Wang, and C. C. Lin, “Three-terminal a-Si solar cells,” SSDM (2010)

[13]  Chien-Chang Chao, Chih-Ming Wang, Chu-Hsuan Lin, and Jenq-Yang Chang, “Spatial quantum efficiency in plasmonic thin film solar cells,” MOC 2010

[14]  C. C. Chao, Y. C. Pan, C. M. Wang, and J. Y. Chang, “Optical analysis of haze ratio and antireflection in structured thin film solar cell,” AEM2C2010 (2010)

[15]  G. Adamo, K. F. MacDonald, N. I. Zheludev, Y. H. Fu, C. M. Wang and D. P. Tsai “The ‘Light-well’: A Tuneable Nanoscale Free-electron Light Source On-a-Chip,” NanoMeta (2009)

[16]  C. M. Wang, Y. C. Chang and D. P. Tsai, “Spatial filtering by using cascading plasmonic grating,” CLEO(2009)

[17]  C. C. Chao, C. M. Wang, and J. Y. Chang, “Impedance-matching surface plasmon absorber for FDTD siumulation,” CLEO(2009)

[18]  Chih-Ming Wang, Hung-I Huang, Chien-Chang Chao and Jenq-Yang Chang, “BROADBAND TRANSMISSION CONCENTRATOR FOR MULTI-JUCTION SOLAR CELL,” MOC2009

[19]  Chih-Ming Wang, Hung-I Huang, Jui-Wen Pan, Hung-Zen Kuo, Hwen-Fen Hong, Hwa-Yuh Shin, and Jenq-Yang Chang, “SECOND OPTICS FREE CONCENTRATOR BY USING REFLECTION AND REFRACTION HYBRID PRISM,” MOC2009

[20]  Sheng-Han Tu, Shih-Han Chen, J. W. Pan, Chih-Ming Wang, Jenq-Yang Chang, “Increasing the light extraction of thin-GaN LEDs by surface structure,” MOC2009

[21]  Chien-Chang Chao, Chih-Ming Wang, and Jenq-Yang Chang, “ALUMINIUM NANO PARTICLE FOR LIGHT ABSORPTION ENHANCEMENT OF THIN FILM SOLAR CELL THROUGH SURFACE PLASMON RESONANCE,” MOC2009

[22]  C. C. Chao_, C. M. Wang, Y. C. Chang, and J. Y. Chang, “Plasmonic Multilayer Structure for Ultra thin a-Si film Photovoltaic,” ODF 2008

[23]  S. H. Tu, J. W. Pan, C. M. Wang, Y. C. Lee and J. Y. Chang, “New collection systems for multi LED light engine,” ODF2008

[24]  M. L. Wu, H. C. Lan, C. M. Wang and J. Y. Chang, “Effective medium based on two-dimensional photonic crystals for index-confinement waveguide application,” SPIE Symposium on Integrated Optoelectronic Devices 2007, San Jose, CA, USA, Jan. 2007.

[25]  H. C. Lan, C. C. Chen, C. S. Chang, C. M. Wang, Y. C. Chang, J. Y. Chang, and M. L. Wu, “Wide-angle Bending Waveguide Based on Phase-compensated Microprism,” MOC ‘07, Japan, 2007.

[26]  C. M. Wang, C. C. Chao, H. I Huang, Y. C. Chang, D. P. Tsai and J. Y. Chang, “Transmission enhancement through single slit embedded in plasmonic multilayer structure,” MOC ‘07, Japan, 2007.

[27]  C. M. Wang, Y. C. Chang and D. P. Tsai, “Angular resolved micro photo luminance spectrum of InGaN quantum wells embedded in plasmonic multilayer structure,” LED’07, Japan, 2007

[28]  M. L. Wu, H. C. Lan, C. M. Wang, and J. Y. Chang, ‘‘Effective medium based on two-dimensional photonic crystals for index-confinement waveguide application’’, SPIE Symposium on Integrated Optoelectronic Devices 2007, San Jose, CA, USA, Jan. 2007.

[29]  J. Y. Chang, C. L. Hsu, C. M. Wang, Y. C. Liu, M. L. Wu, and T. H. Yang, “Silicon-based micro and subwavelength optical elements and applications,” Proc. SPIE Aug. 2006. (invited talk)

[30]  H. C. Lan, C. M. Wang, M. L. Wu, and J. Y. Chang, ‘‘Wide-angle Bending Waveguide with Sub-wavelength Effective Microprism’’, Micro Optics Conference, Seoul Korea, 2006.

[31]  C. M. Wang, H. I. Huang, and J. Y. Chang, “Enhanced transmission through a nano-slit bordered by both trenches and bumps nanastructures,” SPIE 2006 (Accepted).

[32]  J. Y Chang, J. K. Sheu, M. L. Wu, Y. C. Lee, C. L. Hsu, C. C. Lee, T. S. Sheu, C. M. Wang, Y. C. Liu, Z. R. Tu, Y. C. Lee, C. F. Huang, S. H Tu, W. P. Lin, C. S. Fan Chiang, T. H. Yang, W. T. Chien, and C. C. Sun, “Narrowing spectral width of green LED by GMR structure to expand the color mixing field,” SPIE, San-Diego U.S.A. 2006.

[33]  C. M. Wang, C. W. Chu, and D. P. Tsai, “Enhance energy conversion efficiency of organic solar cell using nanostructured sliver cathode,” RIKEN, Japan, 2006

[34]  T. C. Lee, H. C. Huang, C. M. Wang, C. L. Hsu, T. H. Yang, and J. Y. Chang, “Novel GMR-based biochip”, Proc. SPIE Int. Soc. Opt. Eng. 5702, 160 (2005)

[35]  C. M. Wang, C. L. Hsu, J. Y. Chang and C. C. Lee,” Enhance Transmission through a Subwavelength Slit on a Bending Metal Substrate”, Proc. SPIE Int. Soc. Opt. Eng. 5927, 59270V (2005)

[36]  C. L. Hsu, Y. H. Chou, C. M. Wang, J. Y. Chang and C. C. Lee, “Monolithic Low Sideband Guided-Mode Resonance Filter Based on Two-Layer Structure”, Proc. SPIE Int. Soc. Opt. Eng. 5831-45, (2005).

[37]  C. C. Lee, C. L. Hsu, C. M. Wang, J. Y. Chang, and G. C. Chi, “Si-based UV transparent subwavelength optical elements”, Proc. SPIE Int. Soc. Opt. Eng. 5831-44, (2005)

[38]  H. C. Lan, C. S. Cheng, J. Y. Chang, and C. M. Wang, “An easy packaging hybrid optical element in grating based WDM application”, Proc. SPIE Int. Soc. Opt. Eng. 5877-04, (2005)

[39]  J. Y. Chang, C. M. Wang, H. I Huang, and C. C. Chao, “Enhanced transmission of subwavelength slit on tapered metallic structures”,    Proc. MOC. H51, p.218-219, Tokyo Japan, Oct.(2005)

[40]  J. Y. Chang, C. L. Hsu, Yu-Hong Chou, and C. M. Wang, “Silicon-based subwavelength guided-mode resonance filter”, Proc. MOC. H60, p.236, Tokyo Japan, Oct.(2005)

[41]  C. C. Lee, C. M. Wang, Che-Lung Xu, Jing Yi Chen, Jenq Yang Chang, Yi Ming Liao, and Gou Chung Chi, “Nano-Structured Diffractive Optical Elements on SiN_X Membrane for UV-Visible Regime Applications”, Proc. SPIE Int. Soc. Opt. Eng. 5515, 170 (2004).

[42]  C. C. Lee, C. M. Wang, and J. Y. Chang, and G. C. Chi,“Design and Fabrication of Si-Based Pickup Module for Optical Storage”, Proc. SPIE Int. Soc. Opt. Eng. 5524, 378 (2004)

[43]  C. M. Wang, C. L. Xu, J. Y. Chang and C. C. Lee, “Silicon Based Guided-Mode Resonance Nano-Photonic Device”, Proc. SPIE Int. Soc. Opt. Eng. 5515, 275 (2004)

[44]  C. M. Wang, H. C. Lan, J. Y. Chang and C. C. Lee, “Realization of Optical Pickup Head by Using Stacked Silicon Based Micro optical System”, Proc. SPIE Int. Soc. Opt. Eng. 5524, 115 (2004)

[45]  J. Y. Chang, C. L. Hsu, C. M. Wang, H. C. Lan and C. C. Lee, “A Stacked Systems of Optical Pickup Head with Silicon Based Microoptical Elements”, Proc. MOC. C-11, (2004)

[46]  J. Y. Chang, Y. C. Chang, C. C. Lee, and C. M. Wang, “Microoptical element on SiN_x membrane”, Proc. SPIE Int. Soc. Opt. Eng. 5183, 61 (2003)

[47]  R. L. Chen, C. M. Wang, and J. Y. Chang, “Fabricating a silicon microlens mold by ICP dry etching”, CLEO Pacific Rim, Taiwan, (2003)

三、三年內之研究計畫（2008.8∼2013.7）：