現職

國立聯合大學光電工程學系 教授

最高學歷

國立交通大學光電工程研究所博士

實驗室

光電大樓 4F-408

辦公室

光電大樓 5F-508

EMAIL

cherry@nuu.edu.tw

TEL & FAX

TEL: 037-382568/037-382577 ; FAX: 037-382555

研究方向

  • 微型光纖元件設計與製作
  • 新穎光纖感測器
  • 光波導元件理論分析
  • 最佳化演算技術
  1. Cheng-Ling Lee*, R.-C. Zeng, C.-R. Yang, C.-F. Lin, C.-T. Ma and W.-L. Liu, “Tapered Polymer Fiber Inclinometers,” IEEE Photonics Journal , vol. 12, No. 3, pp. 1-11, June 2020. (SCI) PDF
  2. Cheng-Ling Lee*, Y. Lu, C.-H. Cheng, and C.-T. Ma, “Microhole-pair hollow core fiber Fabry-Perot interferometer micromachining by a femtosecond laser,” Sensors and Actuators A: Physical- , vol. 302, pp. 1-5, 2020. (SCI) PDF
  3. P. Han, H.-C. Hsu, H.-W. Cheng, Cheng-Ling Lee, and H.-B. Lee, “Experimental Verification of Near-Field Lattice Spectroscopy,” Microsystem Technologies , no.DOI 10.1007/s00542-019-04562-5, 2019. (SCI)
  4. C.-T. Ma, Cheng-Ling Lee, and Y.-W. You, “Design and Implementation of a Novel Measuring Scheme for Fiber Interferometer Based Sensors,” Sensors 2019 , vol. 19(19), pp. 4080, 2019. (SCI) PDF
  5. Cheng-Ling Lee*, C.-X. Yang, T.-Y.Liang, and C.-T. Ma, “Novel Airflow Sensor Using Laser Heated Sn-Microsphere Airgap Fiber Fabry-Perot Interferometer,” IEEE Photonics Technology Letters, Vol. 31, No. 22, pp. 1775-1778, 2019. (SCI)PDF
  6. C.-T. Ma, Y.-W. Chang, Y.-J. Chang, Cheng-Ling Lee*, “A Hot-Polymer Fiber Fabry–Perot Interferometer Anemometer for Sensing Airflow,” Sensors 2017 , vol. 17(9), pp. 2015, 2017. PDF
  7. Cheng-Ling Lee*, Kai-Wen Liu, Shi-Hong Luo, Meng-Shan Wu, and Chao-Tsung Ma, “A Dual-Polymer Fiber Fizeau Interferometer for Simultaneous Measurement of Relative Humidity and Temperature,” Sensors , vol. 17(11), pp. 2659, 2017. (SCI) PDF
  8. Cheng-Ling Lee*, Y.-W. You, J.-H. Dai, J.-M. Hsu, and J.-S. Horng, “Hygroscopic Polymer Microcavity Fiber Fizeau Interferometer Incorporating a Fiber Bragg Grating for Simultaneously Sensing Humidity and Temperature,” Sensors and Actuators B: Chemical-, vol. 222, pp. 339-346, 2016. (SCI) PDF
  9. J.-M. Hsu*, W.-H. Zheng, Cheng-Ling Lee, and J.-S. Horng, “Theoretical investigation of a dispersion compensating photonic crystal fiber with ultra-high dispersion coefficient and extremely low confinement loss,” Photonics Nanostruct, vol. 16, pp. 1-8, 2015. (SCI) PDF
  10. J.-M. Hsu*, W.-H. Zheng, J.-Z. Chen, Cheng-Ling Lee, and J.-S. Horng, “Temperature fiber sensors based on Mach–Zehnder interferometer with sturdy structure,” IEEE Sens. J, vol. 15, pp. 6995-7000, 2015. (SCI) PDF
  11. Cheng-Ling Lee*, Y.-N. Tsai, G.-H. Chen, Y.-J. Xiao, J.-M. Hsu and J.-S. Horng, “Refined Bridging of Microfiber Plugs in Hollow Core Fiber for Sensing Acoustic Vibrations,” IEEE Photonics Technology Letters, vol. 27, pp. 2403-2406, 2015. (SCI) PDF
  12. Cheng-Ling Lee*, H.-Y. Ho, J.-H. Gu, T.-Y. Yeh, and C.-H. Tseng “Dual hollow core fiber-based Fabry–Perot interferometer for measuring the thermo-optic coefficients of liquids” Optics Letters, Vol. 40, No. 3, 2015. (NSC 102-187 2221-E-239-033-MY3) (SCI) PDF
  13. G.-R. Lin, M.-Y. Fu, Cheng-Ling Lee, and W.-F. Liu, “Dual-Parameter Sensor Based on a No-Core Fiber and Fiber Bragg Grating,” Optical Engineering , vol.53(5), pp. 1-3, 2014. (SCI) PDF
  14. Cheng-Ling Lee*, W.-C. Shih, J.-M. Hsu and J.-S. Horng “Asymmetrical dual tapered fiber Mach-Zehnder interferometer for fiber-optic directional tilt sensor ” Optics Express, Vol. 22, No. 20, pp. 24646-24654, 2014. (NSC 102-2221-E-239 −033 -MY3) (SCI)PDF
  15. J.-M. Hsu, J.-S. Horng, C.-L. Hsu, and Cheng-Ling Lee*, “Fiber-optic Michelson interferometer with high sensitivity based on a liquid-filled photonic crystal fiber,” Optics Communications, Vol. 331, pp. 348-352, 2014. (SCI)PDF
  16. Cheng-Ling Lee*, H.-J. Chahg, Y.-W. You, G.-H. Chen, J.-M. Hsu, and J.-S. Horng, “Fiber Fabry-Pérot interferometer based on air-bubbles/liquid in hollow core fibers,” IEEE Photonics Technology Letters, Vol. 26, No. 8, pp. 749-752, 2014. (SCI)PDF
  17. Cheng-Ling Lee*, C.-Y. Tai, C.-L. Chen, and P. Han, “Adiabatic fiber microtaper with incorporated an air-gap microcavity fiber Fabry-Pérot interferometer,” Applied Physics Letters, Vol. 103, No. 033515 (4pp), 2013. (NSC 101-2221-E-239-020 and NSC 102-2221-E-239-033-MY3) (SCI)PDF
  18. Cheng-Ling Lee*, Y.-C. Zheng, C.-L. Ma, H.-J. Chang, and C.-F. Lee, “Dynamic micro-air-bubble drifted in a liquid core fiber Fabry-Pérot interferometer for directional fiber-optic level meter,” Applied Physics Letters, Vol. 102, No. 193504 (4pp), 2013. (NSC 101-2221-E-239-020) (SCI)PDF
  19. J.-M. Hsu, Cheng-Ling Lee, H.-P. Chang, W.-C. Shih, and C.-M. Li, “Highly sensitive tapered fiber Mach–Zehnder interferometer for liquid level sensing,” IEEE Photonics Technology Letters, Vol. 25, No. 14, pp.1354-1357, 2013. (SCI)PDF
  20. Cheng-Ling Lee*, J.-M. Hsu, J.-S. Horng, W.-Y. Sung, and C.-M. Li, “Microcavity fiber Fabry–Pérot interferometer with an embedded golden thin film,” IEEE Photonics Technology Letters, Vol. 25, No. 9, pp. 833-836, 2013. (SCI) (NSC 100-2221-E-239-038 and NSC 101-2221-E-239-020)PDF
  21. J.-M. Hsu, Cheng-Ling Lee, J.-S. Horng, and J. J.-Ho Kung, “Polarization-maintaining photonic crystal fiber with rim-touched defect-holes,” Optics Communications, Vol. 298–299, pp. 125-128, 2013. (SCI)PDF
  22. Cheng-Ling Lee*, C.-F. Lee, C.-M. Li, T.-C. Chiang, and Y.-L. Hsiao, “Directional anemometer based on an anisotropic flat-clad tapered fiber Michelson interferometer,” Applied Physics Letters, Vol. 101, No. 023502 (4pp), 2012. (NSC 100-2221-E-239-038)(SCI).PDF
  23. Cheng-Ling Lee*, L.-H. Lee, H.-E. Hwang, and J.-M. Hsu, “Highly Sensitive Air-Gap Fiber Fabry-Perot Interferometers based on Polymer-Filled Hollow Core Fibers,” IEEE Photonics Technology Letters, Vol. 24, No. 2, pp. 149-151, 2012. (NSC 100-2221-E-239 -038)(SCI).PDF
  24. J.-M. Hsu, Cheng-Ling Lee, P.-J. Huang, C.-H. Hung, and P.-Y. Tai, “Temperature Sensor With Enhanced Sensitivity Based on Photonic Crystal Fiber Interferometer With Material Overlay,” IEEE Photonics Technology Letters, Vol. 24, No. 19, pp. 1761-1764, 2012. (NSC 100-2221-E-239-038) (SCI). PDF
  25. Cheng-Ling Lee*, C.-H. Hung, C.-M. Li, Y.-W. You, “Simple air-gap fiber Fabry–Perot interferometers based on a fiber endface with Sn-microsphere overlay,” Optics Communications, Vol. 285, No. 21-22, pp. 4395-4399, 2012. (NSC 100-2221-E-239-038) (SCI).PDF
  26. Cheng-Ling Lee*, K.-H. Lin, Y.-Y. Lin, and J.-M. Hsu, “Widely tunable and ultrasensitive leaky-guided multimode fiber interferometer based on refractive index-matched coupling,” Optics Letters, Vol. 37, No. 3, pp.302-304, 2012. (NSC 98-2221-E-239- 002-MY2) (SCI).
  27. Cheng-Ling Lee*, W.F. Liu, Z.Y. Weng, F.C. Hu, “Hybrid AG-FFPI/ RLPFG for Simultaneously Sensing Refractive Index and Temperature,” IEEE Photonics Technology Letters, Vol. 23, No. 17, pp. 1231-1233, 2011. (NSC 98-2221-E-239- 002-MY2)(SCI). PDF
  28. Cheng-Ling Lee*, Wan-Yu Hong, Hsin-Jung Hsieh, and Zi-Yu Weng, “Air Gap Fiber Fabry-Perot Interferometer for Highly Sensitive Micro-Airflow Sensing,”, IEEE Photonics Technology Letters,Vol. 23, No. 13, pp. 905-907, 2011. (NSC 98-2221-E-239- 002-MY2)(SCI).PDF
  29. Cheng-Ling Lee*, Z.-Y. Weng, C.-J. Lin, Y.-Y. Lin, “Leakage coupling of ultrasensitive periodical silica thin-film long-period grating coated on tapered fiber,” Optics Letters, Vol. 35, No. 24, pp. 4172-4174. 2010. (NSC 98-2221-E-239- 002-MY2)(SCI).PDF
  30. Cheng-Ling Lee*, “Spectral analysis of waveguide tapered microfiber with an ultrathin metal coating,” Optics Express, Vol. 18, No.14, pp. 14768-14777, 2010. (NSC 98-2221-E-239-002-MY2).(SCI)PDF
  31. Cheng-Ling Lee*, K.-H. Lin and N.-K. Chen, “Analysis of Optical Properties of Fundamental- Mode in Waveguide Tapered Fibers,” Microelectronics Reliability, Vol.50, Issue5, pp.726-729 ,Jan. 2010.(SCI)PDF
  32. Pin Han, Cheng-Ling Lee, L.-Y. Chen, S.-H. Huang, “A data transmission scheme with spectral switches of a shifting double-slit in the far-field,” Journal of Optics, Vol.12, No.3, pp.035402, Jan. 2010.(SCI)
  33. Cheng-Ling Lee*, Pin-Cheng Wu, and Li-Wei Liu, “Single Resonant and Widely Tunable Ultrathin Cladding Long-Period Fiber Grating Filters,” Optical Review, Vol.17, No.1, pp01-04, Jan. 2010. (NSC-97-2221-E-239-012).(SCI)
  34. K.-C. Hsu, N.-K. Chen, Cheng-Ling Lee, Y.-S. Chih, P.-J. Jhuang, Y. Lai and C. Lin, “Spectral Response of Long Period Fiber Grating based on Tapered Fiber with Side-Contacted Metal Grating,” IEEE J. of Lightwave Technol., Vol.28, No7, pp.1057-1063, 2010. (SCI)PDF
  35. Cheng-Ling Lee* and Pin Han, "Analysis of Designing Multichannel Fiber Bragg Gratings with Different Inverse Design Algorithms," Optical Review, Vol. 16, No. 5, pp. 526-528, 2009. (SCI) (NSC-96-2221-E-239-014)
  36. Cheng-Ling Lee* and Pin Han, "Optimal Design of Single Resonant and Ultrabroad Band Long-Period Fiber Grating Filters," Optical Engineering, Vol. 48 (8), pp. 080501(3pp), 2009. (SCI) (NSC-97-2221-E-239-012)PDF
  37. Pin Han, Cheng-Ling Lee, "Spectral switches of a double slit with a movable central part in the far-field," Journal of Optics A: Pure and Applied Optics 11, pp. 085410 (6pp), 2009. (SCI)PDF
  38. Cheng-Ling Lee*, Ray-Kuang Lee, Yee-Mou Kao, "Synthesis of Long-Period Fiber Gratings with a Lagrange Multiplier Optimization Method," Optics Communications, Vol. 281, pp. 61-74, 2008. (SCI). (NSC-95-2215-E-239-002)PDF
  39. Cheng-Ling Lee*, Ray-Kuang Lee, Yee-Mou Kao, "Lagrange Multiplier Constrained Optimization for Designing Narrowband Dispersionless Fiber Bragg Gratings," Optical Engineering, Vol. 47(1), pp. 015005, 2008. (SCI). (NSC-95-2215-E-239-002)
  40. N. K. Chen, Cheng-Ling Lee, Sien Chi, "Wideband tunable wavelength-selective coupling in asymmetric side-polished fiber coupler with dispersive interlayer," Optics Express, Vol. 15, No.26, pp. 17747-17753, 2007. (SCI). (NSC-96-2221-E-239-014)PDF
  41. Cheng-Ling Lee*, Ray-Kuang Lee , Yee-Mou Kao, "Design of multichannel DWDM fiber Bragg grating filters by Lagrange multiplier constrained optimization," Optics Express, Vol. 14, No. 23, pp.11002-11011, Nov. 2006. (SCI)(NSC-95-2221-E-239-053)PDF
  42. Cheng-Ling Lee*, "Designing Optimal Long-Period Fiber Gratings with the Overlapped Gaussian-Apodization Method for Flattening EDFA Gain Spectra," Optics Communications, Vol. 262, pp.170-174, June. 2006. (SCI) (NSC-93-2218-E -239-005)PDF
  43. Cheng-Ling Lee* and Yinchieh Lai, "Long-Period Fiber Grating Filter Synthesis Using Evolutionary Programming," Journal of Fiber and Integrated Optics, Vol. 23.4, pp.249-261, Aug. 2004. (SCI)
  44. Cheng-Ling Lee* and Yinchieh Lai, "Optimal Narrowband Dispersionless Fiber Bragg Grating Filters with Short Grating Length and Smooth Dispersion Profile," Optics Communications, Vol. 235, pp.99-106, May. 2004. (SCI)PDF
  45. Cheng-Ling Lee and Yinchieh Lai, "Evolutionary Programming Synthesis of Optimal Long-Period Fiber Grating Filters for EDFA Gain Flattening," IEEE Photonics Technology Letters, Vol.14, No. 11, pp1557-1559, Nov. 2002. (SCI)PDF
  1. H.-M. Chi, T.-L. Chen, Y.-C. Chang, Cheng-Ling Lee* , and C.-H. Chen,“Laser Heated Polymer Fiber Fabry-Perot Interferometer for Hot-Wire Anemometry,”, Optics & Photonics Taiwan, International Conference (OPTIC), Taipei, Taiwan, 2020.
  2. Cheng-Ling Lee* , and C.-C. Liu,“Ultracompact Fiber Fabry-Perot Interferometers and Their Sensing Applications,”, Optics & Photonics Taiwan, International Conference (OPTIC), Taipei, Taiwan, 2020.
  3. C.-C. Liu, T.-Y. Zhou, and Cheng-Ling Lee* ,“An Asymmetry Tapered Polymer Fiber Inclinometer,”, 2020 Conference on Photonics and Communications (IPE), Kaohsiung, Taiwan, 2020.
  4. T.-L. Chen, Y.-C. Chang, and Cheng-Ling Lee* ,“Thermal Effect of Polymer Fabry-Perot Interferometer with Silver Mirror Reaction Heated by Laser,”, 2020 Conference on Photonics and Communications (IPE), Kaohsiung, Taiwan, 2020.
  5. P.-S. Cheng, C.-C. Liu, and Cheng-Ling Lee* ,“A Slanted Cleaved Fiber Tapered Polymer Inclinometer for Asymmetrical Tilt Angles Measurement,”, Information Photonics 2020 (IP'20), Taipei, Taiwan, 2020.
  6. X.-M. Weng, Cheng-Ling Lee* , and C.-H. Chen,“Liquid Hollow Core Fiber Fabry-Perot Interferometer with Metal Al Nanoparticles for Laser Heating,”, Information Photonics 2020 (IP'20), Taipei, Taiwan, 2020.
  7. T.-L. Chen, H.-M. Chi, Cheng-Ling Lee* , and C.-H. Chen,“Hot Polymer Fiber Fabry-Perot Interferometer with Silver Mirror Reaction Heated by Laser Diode,”, Information Photonics 2020 (IP'20), Taipei, Taiwan, 2020.
  8. B.-X. Ke, X.-Y. Chen, and Cheng-Ling Lee* ,“A Fiber Optic Vibration Sensor based on a Hollow Core Fiber,”, Optics & Photonics Taiwan, International Conference (OPTIC), Taichung, Taiwan, 2019.
  9. C.-R. Yang, Cheng-Ling Lee* , and R.-C. Zeng,“Simultaneous Measurement of Inclination and Temperature based on a Fiber Fizeau Interferometer with a Taper-Shaped Polymer,”, Optics & Photonics Taiwan, International Conference (OPTIC), Taichung, Taiwan, 2019.
  10. R.-C. Zeng, J.-T. Chao, C.-R. Yang, Cheng-Ling Lee* , C.-F. Lin, and W.-F. Liu,“Fiber-Optic Inclinometers based on Tapered Polymer,”, Optics & Photonics Taiwan, International Conference (OPTIC), Taichung, Taiwan, 2019.
  11. Cheng-Ling Lee* , C.-R. Yang, and R.-C. Zeng,“Fiber Anemometer based on a Tapered Fiber Michelson Interferometer,”, 2019 International Conference on Smart Science (ICSS2019), Gumma, Japan, 2019.
  12. R.-C. Zeng, Cheng-Ling Lee* , and C.-R. Yang,“Highly Sensitive Tilt Sensor based on a Fiber Fabry-Perot Interferometer with a Taper-Shaped Polymer,”, 2019 International Conference on Smart Science (ICSS2019), Gumma, Japan, 2019.
  13. J.-T. Chao, P. Han, and Cheng-Ling Lee* ,“Dual Taper-Shaped Polymers Fiber Mach–Zehnder Interferometer,”, Opto-Electronics and Communications Conference (OECC), Fukuoka, Japan, 2019.
  14. Y. Lu, C.-H. Chen, C.-T. Ma, and Cheng-Ling Lee* ,“A Hollow Core Fiber Fabry–Perot Interferometer Micromachining by Femtosecond Laser,”, Opto-Electronics and Communications Conference (OECC), Fukuoka, Japan, 2019.
  15. C.-X. Yang, Cheng-Ling Lee* , T.-Y. Liang, and C.-T. Ma,“A Novel Fiber Optic Hot-Wire Anemometer Based on an Sn Metal Airgap Fiber Fabry–Perot Interferometer,”, Optics & Photonics Taiwan International Conference (OPTIC), Taichung, Taiwan, 2019.
  16. Cheng-Ling Lee* , C.-T. Ma, C.-X. Yang, and T.-Y. Liang,“A Novel Airflow Sensor Using Laser Heated Sn-Microsphere Based Air-Gap Fiber Fabry–Perot Interferometer,”, International Conference on New Energy and Environment Engineering (ICNEE), Singapore, 2019.
  17. H.-W. Wu, Cheng-Ling Lee* ,“The Stability of Polymer Fiber Fizeau Interferometers for Measurements of Relative Humidity and Temperature,”, International Conference on Nanoscience, Nanotechnology and Advanced Materials (IC2NM), Osaka, Japan, 2019.
  18. J.-Y. Chang, Cheng-Ling Lee* , and P. Han,“Simultaneous Measurement of Relative Humidity and Temperature by Using Polymer Fiber Fizeau/Airgap Fiber Fabry-Perot Interferometers,”, Opto-Electronics and Communications Conference (OECC), Korea, 2018.
  19. J.-Y. Chang, H.-W. Wu, and Cheng-Ling Lee* ,“Polymer Fiber Fizeau Interferometer for Relative Humidity and Temperature Measurement,”, Optics & Photonics Taiwan International Conference (OPTIC), Tainan, Taiwan, 2018.
  20. Y.-M. Chen, J.-R. Hou, W.-T. Chen, and Cheng-Ling Lee* ,“Simultaneous Measurement of Thermo-Optic and Thermal Expansion Coefficients of an Optical Material based on a Fiber Fabry–Perot interferometer,”, Optics & Photonics Taiwan International Conference (OPTIC), Tainan, Taiwan, 2018.
  21. J.-R. Hou, Y.-M Chen, S.-H. Lu, and Cheng-Ling Lee* ,“Fiber Fabry–Perot Interferometers based on Microspheres in Hollow Core Fibers for Simultaneously Measuring Temperature and Relative Humidity,”, Global Conference on Engineering and Applied Science (GCEAS), Tokyo, Japan, 2018.
  22. M.-Y. Wang, and Cheng-Ling Lee* ,“Simultaneous Measurement of Temperature and Relative Humidity Using a Polymer-based Fiber Mach–Zehnder Interferometer,”, International Conference on Engineering and Applied Science (HKICEAS), Hong Kong, 2018.
  23. J.-Y. Guo, M.-S. Wu, Cheng-Ling Lee* , W.-F. Liu, and C.-F. Lin,“Simultaneous Measurement of Tilt Angle and Temperature based on a Taper-Shaped Polymer Incorporating a Fiber Bragg Grating,”, Pacific Rim Conference on Lasers and Electro-Optics (CLEO-PR), Hong Kong, 2018.
  24. S.-H. Luo, T.-Y. Liang, K.-W. Liu and Cheng-Ling Lee* ,“Fiber Fabry-Perot interferometer anemometer based on a hot-polymer”, Optics & Photonics Taiwan, the International Conference (OPTIC), Kaohsiung Taiwan, 2017.
  25. C-.J. Kuo, M.-S. Wu, and Cheng-Ling Lee* , “A novel sensitive fiber tilt sensor based on a taper-shaped polymer,” International Symposium on Nano Science and Technology (ISNST), Taiwan, 2017.
  26. M.-J. Wang, M.-S. Wu, and Cheng-Ling Lee* , “Fiber Mach–Zehnder Interferometer Using a Polymer Filled Hollow Core Fiber for Sensing Temperature,” International Symposium on Nano Science and Technology (ISNST), Taiwan, 2017.
  27. W.-Y. Lin, J.-H. Lin, and Cheng-Ling Lee* , “Dynamic micro-air -bubbles drifted in a liquid core fiber affected by different materials,” International Symposium on Nano Science and Technology (ISNST), Taiwan, 2017.
  28. S.-H. Lu, C-.J. Hou, Y.-M. Chen, and Cheng-Ling Lee* , “Measurement of temperature and humidity of Polymer microsphere in a microcavity hollow core fiber Fabry–Pérot interferometer,” International Symposium on Nano Science and Technology (ISNST), Taiwan, 2017.
  29. Y.-W. Chang, J.-J. Chang, and Cheng-Ling Lee* , “Hybrid Microcavity Fiber Fabry–Pérot Interferometer For Simultaneously Measurement Of Humidity And Temperature,” OptoElectronics and Communications Conference (OECC 2016), Singapore, 2017.
  30. M.-S. Wu, S.-H. Luo, and Cheng-Ling Lee* , “Miniature Fiber Mach-Zehnder Interferometer Using a Polymer Filled Hollow Core Fiber,” OptoElectronics and Communications Conference (OECC 2016), Singapore, 2017.
  31. W.-Y. Lin(林汶毅), J.-H. Lin(林均翰), and Cheng-Ling Lee*(李澄鈴) ,“溫度梯度作用於微型光纖感測器之微米級空氣泡之飄移特性量測,”Conference on innovation and technology in electronics, signal and Communication (CITESC), 2017.
  32. S.-H. Luo(羅士宏), W.-G. Chang(張瑋剛) and Cheng-Ling Lee*(李澄鈴) ,“栓塞式光纖法布里-珀羅干涉儀應用於折射率與溫度同時感測,”Conference on innovation and technology in electronics, signal and Communication (CITESC), 2017.(優秀論文獎)
  33. T.-Y. Liang(梁騰輿), S.-H. Luo(羅士宏) and Cheng-Ling Lee*(李澄鈴) , “熱高分子光纖法布里-珀羅干涉儀感應氣流風速計,”Conference on Photonics and Communications (CITESC), 2017.
  34. Y.-J. Yang, Y.-W. Chang and Cheng-Ling Lee* ,“Twin polymer fiber Fizeau interferometers for simultaneous measurement of humidity and temperature’’, Optics & Photonics Taiwan, the International Conference (OPTIC), Taipei Taiwan, 2016.
  35. W.-R. Wu, C.-Y. Chen and Cheng-Ling Lee* ,“Directional Vibration Sensor Based on an Anisotropic Flat-Clad Tapered Fiber’’, Optics & Photonics Taiwan, the International Conference (OPTIC), Taipei Taiwan, 2016.
  36. M.-S. Wu, W.-G. Chang, and Cheng-Ling Lee*, “Ultracompact microcavity fiber Fabry-Pérot interferometer for sensing Temperature,” International Symposium on Nano Science and Technology (ISNST), Taiwan, 2016.(學生論文獎)
  37. W.-Y. Lin, J.-H. Lin, and Cheng-Ling Lee*, “Dynamic Micro-Air Bubble DriFted In A Liquid Core Fiber Affected By The Gradient Temperature,” International Symposium on Nano Science and Technology (ISNST), Taiwan, 2016.
  38. Y.-W. Chang, Y.-J. Yang, and Cheng-Ling Lee*, “Highly Sensitive Polymer Based Microcavity Fiber Fabry–Perot Interferometers,” International Symposium on Nano Science and Technology (ISNST), Taiwan, 2016.
  39. S. H. Lu(呂世翔), H. Y. Fan(范修瑀), J. H. Gu(古政鴻), and Cheng-Ling Lee*(李澄鈴)), “微型中空光纖Fabry-Pérot干涉儀量測高分子聚合物的熱膨脹係數,” 電子, 信號, 與通訊創新科技研討會, 2016.
  40. M.-S. Wu(吳孟珊), W.-G. Chang(張瑋剛), and Cheng-Ling Lee*(李澄鈴)), “多種參數感測的多共振腔光纖法布里-珀羅干涉儀,” 電子, 信號, 與通訊創新科技研討會, 2016.(學生論文獎)
  41. C.-Y. Chen, Y.-M. Chen, and Cheng-Ling Lee*, "Robust All-Fiber Optical Sensor for Sensing Ultrasonic Vibration." Engineering and Applied Sciences(EAS), Tokyo, Japan, 2016.
  42. C.-Y. Chen W.-R. Wu W.-C. Lee and Cheng-Ling Lee*, “Directional Acoustic Vibration Sensor Based on an Anisotropic Flat Clad Fiber aligned to a Single Mode Fiber” Engineering and Applied Sciences(EAS), Tokyo, Japan, 2016.
  43. Y.-M. Chen, C.-Y. Chen, and Cheng-Ling Lee*, "A polymer microsphere fiber Fizeau interferometer," Tokyo International Conference on Engineering and Applied Sciences(EAS), Tokyo, Japan, 2016.
  44. J.-H. Lin, T.-Y. Yeh, T.-W. Fu, W.-Y. Lin and Cheng-Ling Lee*, “A Study of Drifted Velocity of a Micro-Air-Bubble in an Optical Liquid Core Fiber with Different Tilt Angles” Engineering and Applied Sciences(EAS), Tokyo, Japan, 2016.
  45. Y.-J. Yang, Y.-W. Chang and Cheng-Ling Lee*, “Dual polymer microcavity fiber Fizeau interferometers for simultaneously sensing relative humidity and temperature’’ Engineering and Applied Sciences(EAS), Tokyo, Japan, 2016.
  46. W.-K. Chang, M.-S. Wu, C.-H. Tseng, P. Han, and Cheng-Ling Lee*, “A Multicavity Fiber Fabry–Pérot Interferometer for Sensing Multiple Parameters,” OptoElectronics and Communications Conference (OECC 2016),Niigata Japan, 2016.
  47. T.-W. Fu, Y.-J. Yang, J.-H. Lin, T.-Y. Yeh, P. Han and Cheng-Ling Lee*, “A Polymer-Coated Hollow Core Fiber Fabry-Perot Interferometer for Sensing Liquid Level,” OptoElectronics and Communications Conference  (OECC 2016), Niigata Japan, 2016
  48. W.-K. Chang, M.-S. Wu, C.-H. Tseng, and Cheng-Ling Lee*, “Probe Typed Microcavity Fiber Fabry-Pérot Interferometer for Simultaneously Sensing Refractive Index and Temperature,” International Congress on Engineering and Information (ICEAI), Osaka Japan, 2016
  49. W. R. Wu, C. Y. Chen and Cheng-Ling Lee*, “Directional Vibration Sensor Based on an Anisotropic Flat-Clad Tapered Fiber,” International Congress on Engineering and Information (ICEAI), Osaka Japan, 2016
  50. W. C. Lee, N. J. Huang, C. L. Zeng, F. B. Wu and Cheng-Ling Lee*, “Highly Sensitive Airgap Fiber Fabry-Pérot Interferometer Based on Multilayer Dielectric Thin Film Coated on the Fiber Endfaces,” International Congress on Engineering and Information (ICEAI), Osaka Japan, 2016
  51. H. Y. Fan, S. H. Lu, J. H. Gu, and Cheng-Ling Lee*, “Measurement of Temperature Dependent Thermal Expansion coefficient of Polymer in a Microcavity Hollow Core Fiber Fabry–Pérot Interferometer,” International Congress on Engineering and Information (ICEAI), Osaka Japan, 2016
  52. Y.-J. Yang and Cheng-Ling Lee*, “Airgap Fiber Fabry–Pérot Interferometer Using a Hollow Core Fiber Coated with a Layer of Photopolymer for Measurement of Relative Humidity and Temperature,, International Symposium on Next-Generation Electronics (ISNE) , hsinchu Taiwan, 2016.
  53. H. Y. Fan (范修瑀), J. H. Gu (古政鴻), and Cheng-Ling Lee*(李澄鈴), “中空光纖 Fabry-Perot 干涉儀快速量測液體物質色散之Sellmeier方程式,” Conference on Photonics and Communications, 2015.(學生論文獎)
  54. Y. J. Xiao (蕭宇傑), and Cheng-Ling Lee*(李澄鈴), “錐狀光纖連接D型光纖方向性微量位移光纖感測器,” Conference on Photonics and Communications, 2015.
  55. Y. M. Chan (陳昱銘), Y. N. Tsai (蔡侑男), and Cheng-Ling Lee*(李澄鈴), “高分子微米球共振腔光纖干涉儀,” Conference on Photonics and Communications, 2015.(學生論文獎)
  56. C. Y. Chan (陳俊宇), Y. N. Tsai (蔡侑男), and Cheng-Ling Lee*(李澄鈴), “錐形光纖塞子熔接中空光纖之全光纖式振動感測器,” Conference on Photonics and Communications, 2015.
  57. T. Y. Yeh (葉東沅), J. H. Lin (林均翰), T. W. Fu (傅騰緯), and Cheng-Ling Lee*(李澄鈴), “微量極性液體之微型光纖感測元件,” Conference on Photonics and Communications, 2015.
  58. W. C. Lee (李偉傑), C. L. Zeng (曾群倫), and Cheng-Ling Lee*(李澄鈴), “微米級空氣間隙之 Fabry-Perot 光纖干涉儀,” Conference on Photonics and Communications, 2015.
  59. W. K. Chang (張瑋剛), C. H. Tseng (曾仲豪), and Cheng-Ling Lee*(李澄鈴), “高靈敏鐘擺式錐型光纖振盪感測器,” Conference on Photonics and Communications, 2015.(學生論文獎)
  60. C.-H. Tseng, W.-K. Chang, and Cheng-Ling Lee*, “a novel pendulum-typed fiber optic vibration sensor based on a tapered fiber plug fused a hollow core fiber,” International Symposium on Nano Science and Technology (ISNST), Taiwan, 2015.
  61. C.-L. Zeng, W.-C. Lee, W.-R. Wu, and Cheng-Ling Lee*, “Fiber Fabry-Pérot interferometers based on microgap of air and water,” International Symposium on Nano Science and Technology (ISNST), Taiwan, 2015.
  62. J.-H. Gu, H.-Y. Fan, and Cheng-Ling Lee*, “A hollow core fiber Fabry-Pérot interferometer for measuring refractive index of liquids,” International Symposium on Nano Science and Technology (ISNST), Taiwan, 2015.
  63. Y.-N. Tsai, W.-R. Wu, Y.-M. Chen, C.-Y. Chen, and Cheng-Ling Lee*, “microfiber bridge in hollow core fiber for sensing acoustic vibrations,” International Symposium on Nano Science and Technology (ISNST), Taiwan, 2015.
  64. Y.-J. Xiao, K.-W. Liu, and Cheng-Ling Lee*, “Directional D-Shaped-Fiber Micro-Displacement Sensor,” International Symposium on Nano Science and Technology (ISNST), Taiwan, 2015.
  65. J.-H. Gu, H.-Y. Fan, W.-C. Lee, Y.-U. Lin and Cheng-Ling Lee*, “A Hollow Core Fiber Fabry-Pérot Interferometer for Rapidly Measuring Sellmeier Equations of Material Dispersion for Liquids,” Asia-Pacific Conference on Engineering and Applied Science (APCEAS), Osaka Japan, 2015.
  66. C.-H. Tseng, W.-K. Chang, Y.-N. Tsai, Cheng-Ling Lee*, ‘‘Highly Sensitive Pendulum-Typed Fiber Optic Vibration Sensor based on a Tapered Fiber Plug Fused a Hollow Core Fiber’’, Asia-Pacific Conference on Engineering and Applied Sciences (APCEAS), Osaka, Japan, 2015
  67. T.-Y. Yeh, C.-H. Tseng and Cheng-Ling Lee*, ” The Electrostatic Characteristics of Polar Micro-Liquids Measured by a Micro-Airbubble in Liquid-Core Fiber”, International Conference on Engineering and Applied Sciences, Hokkaido, Japan, 2015.
  68. C.-L. Zeng, W.-C. Lee, F.-B. Wu, Y.-W. You, W.-R. Wu and Cheng-Ling Lee*,“Fiber Fabry-Pérot interferometers based on microgap of water ”, International Conference on Engineering and Applied Sciences, Hokkaido, Japan, 2015.
  69. C.-H. Tseng, W.-K. Chang, C.-L. Zeng, Cheng-Ling Lee*, ‘‘All-Fiber Ultrasonic Vibration Sensor’’, International Conference on Engineering and Applied Sciences, Hokkaido, Japan, 2015.
  70. W.-H. Zheng, J.-Z. Chen, Cheng-Ling Lee*, J.-S. Horng, and J.-M. Hsu*, "Nonperishable Fiber Sensor Based on Mach-Zehnder Interferometer for Temperature Sensing," International Congress on Engineering and Information (ICEAI 2015), Kyoto, Japan, pp. 262-267, May 7-9, 2015.
  71. J.-H. Gu, H.-Y. Ho, Cheng-Ling Lee* and Y.-U. Lin, ‘‘A Microcavity Fiber Fabry-Pérot Interferometer for Measuring Refractive Index and Material Dispersion of Liquids,” OptoElectronics and Communications Conference (OECC 2015),Shanghai China, 2015.(NSC 102-2221-E-239-033 -MY3.)
  72. Y.-N. Tsai, C.-Y. Chen, G.-H. Chen and Cheng-Ling Lee*, ‘‘ “All Fiber Vibration Sensor Based on a Tapered Fiber Plug Fused Hollow Core Fiber,” OptoElectronics and Communications Conference (OECC 2015),Shanghai China, 2015.(NSC 102-2221-E-239-033 -MY3.)
  73. C.-A. Shih,Cheng-Ling Lee*, J.-S. Horng, J.-M. Hsu, "High Speed U-Typed Carving Long Period Fiber Gratings," International Congress on Engineering and Information (ICEAI 2015), Kyoto, Japan, pp. 255-261, May 7-9, 2015.
  74. K. W. Liu and Cheng-Ling Lee*, “Directional bending sensor based on a flat-clad fiber Mach–Zehnder interferometer,” International Congress on Natural Sciences and Engineering (ICEAI), Kyoto Japan pp. 706-712. (NSC 102-2221-E-239-033 -MY3.)
  75. Y.-N. Tsai, G.-H. Chen, J. M. Hsu, Cheng-Ling Lee*, “In-Line Fiber Vibration Sensor Based on Fiber Plugs Bridging in a Hollow Core Fiber” International Symposium on Next-Generation Electronics (ISNE 2015) , Taipei Taiwan,270313, 2015. (NSC 102-2221-E-239-033 -MY3)
  76. J.-H. Gu, Cheng-Ling Lee*, H.-Y. Ho, C.-H. Tseng, T.-Y. Yeh “Dual hollow core fibers Fabry-Pérot interferometer for measuring thermo-optic coefficients of liquids” International Symposium on Next-Generation Electronics (ISNE 2015) , Taipei Taiwan, 270180, 2015. (NSC 102-2221-E-239-033 -MY3)
  77. Y.-J. Xiao, C.-C. Yeh and Cheng-Ling Lee*, “Directional Micro-Displacement Sensor base on a Tapered Fiber Connected to a D-Shaped Fiber” International Symposium on Next-Generation Electronics (ISNE 2015) , Taipei Taiwan, 270181, 2015. (NSC 102-2221-E-239-033 -MY3)
  78. K.-W. Liou, R.-H. Lee, and Cheng-Ling Lee*, “Directional bending sensor based on a singlemode/flat-clad/single-mode fiber Mach–Zehnder interferometer ” Optics & Photonics Taiwan, International Conference, Taichung Taiwan, 2014-FRI-S0212-O001. (NSC 102-2221-E-239 -033 -MY3)
  79. G.-H. Chen, Y.-N. Cai, C.-K. Xie, K.-W. Liu, X.-Y. He, and Cheng-Ling Lee*, “Fiber-Optic Acoustic Vibration Sensor Based on Fiber Taper Plug Bridge in Hollow Core Fiber” Optics & Photonics Taiwan, International Conference, Taichung Taiwan, 2014-FRI-S0203-O004. (NSC 102-2221-E-239 -033 -MY3)
  80. H.-Y. Ho, J.-H. Gu, W.-R. Wu, Y.-J. Chen, Y.-W. You, and Cheng-Ling Lee*,“All Fiber Fabry-Pérot Interferometer for Simultaneous Measurement of Refractive Index and Thermo-Optic Coefficient in Liquids” Optics & Photonics Taiwan, International Conference, Taichung Taiwan, 2014-FRI-S0209-O001.
  81. J.-H. Dai, H.-Y. Ho, W.-R. Wu, C.-H. Tseng, and Cheng-Ling Lee*, “Probe-Typed Micro-Cavity Fiber Fabry-Pérot Interferometer for Refractive Index Measurement” Optics & Photonics Taiwan, International Conference, Taichung Taiwan, 2014-Thu-P0201-P010.
  82. Y.-W. You, J.-H. Dai, and Cheng-Ling Lee*, “Highly hygroscopic polymer microcavity fiber Fizeau interferometer for humidity sensing” Progress In Electromagnetics Research Symposium, Guangzhou China, 525, 2014.
  83. J.-H. Dai, Y.-W. You, and Cheng-Ling Lee*, “Probe typed polymer microcavity fiber Fizeau interferometer for humidity sensor” The OptoElectronics and Communication Conference and the Australian Conference on Optical Fibre Technology, Melbourne Australia, 676, 2014. (NSC 102-2221-E-239-033-MY3)
  84. G.-H. Chen, Y.-W. You, H.-J. Chang, and Cheng-Ling Lee*, “Air-bubble typed based fiber Fabry-Pérot interferometers with tapered fiber plug” The OptoElectronics and Communication Conference and the Australian Conference on Optical Fibre Technology, Melbourne Australia, 2014. (NSC 102-2221-E-239-033-MY3)
  85. C.-C. Yeh, C.-L. Hsu, and Cheng-Ling Lee*, “Directional airflow meter base on a fiber taper connected to an anisotropic flat-clad fiber” The OptoElectronics and Communication Conference and the Australian Conference on Optical Fibre Technology, Melbourne Australia, 429, 2014. (NSC 102-2221-E-239-033-MY3)
  86. C.-S. Ma, Y.-C. Jen, and Cheng-Ling Lee*, “Fiber-optic tilt sensor based on an in-line multimode fiber interferometer,” IEEE The 3rd International Symposium on Next Generation Electronics, Taoyuan Taiwan, 240305, 2013. (NSC 102-2221-E-239-033-MY3)
  87. C.-L. Hsu, C.-L. Ma, W.-C. Shih, J.-M. Hsu, and Cheng-Ling Lee*, “Highly sensitive fiber michelson interferometer based on a liquid-filled photonic crystal fiber with dispersion engineering,” IEEE Nanotechnology Materials and Devices Conference, Tainan Taiwan, MP-4-4, 2013. (NSC 101-2221-E-239-020)
  88. W.-C. Shih, Y.-C. Jen, C.-L. Hsu, C.-L. Ma, J.-M. Hsu, and Cheng-Ling Lee*, “Fiber-optic liquid level sensor based on a tapered fiber michelson interferometer,” IEEE Nanotechnology Materials and Devices Conference, Tainan Taiwan, MP-4-5, 2013. (NSC 101-2221-E-239-020 and NSC 102-2221-E-239-033-MY3)
  89. C.-L. Ma, C.-L. Hsu, W.-C. Shih, Y.-W. You, and Cheng-Ling Lee*, “Liquid crystal fiber microcavity Fabry-Pérot interferometer,” IEEE Nanotechnology Materials and Devices Conference, Tainan Taiwan, TP-P11-1, 2013. (NSC 101-2221-E-239-020 and NSC 102-2221-E-239-033-MY3)
  90. C.-S. Ma (馬群昇), Y.-C. Jen (任永昌), and Cheng-Ling Lee*(李澄鈴), “Fiber-optic tilt sensor based on a multimode fiber interferometer,” Optics & Photonics Taiwan, International Conference, Zhongli, Taiwan, 2013-THU-P0201-P026, 2013. (NSC 101-2221-E-239 -020)
  91. Y.-C. Jen (任永昌), C.-S. Ma (馬群昇), T.-C. Wu (吳采晨), H.-W. Hsiao (蕭翔瑋), C.-C. Hsu (許正治), and Cheng-Ling Lee*(李澄鈴), “In-line fiber glucose sensor based on multimode fiber interferometer,” Optics & Photonics Taiwan, International Conference, Zhongli, Taiwan, 2013-THU-P0201-P024, 2013. (NSC 101-2221-E-239 -020)
  92. C.-L. Ma (馬嘉蓮), Y.-C. Zheng (鄭揚臣), and Cheng-Ling Lee*(李澄鈴), “Liquid crystal fiber Fizeau interferometer,” Optics & Photonics Taiwan, International Conference, Zhongli, Taiwan, 2013-THU-P0201-P025, 2013.
  93. C.-L. Chen (陳建霖), H.-Y. He (何軒宇), and Cheng-Ling Lee*(李澄鈴), “Liquid microcavity fiber Fabry-Pérot interferometer,” Optics & Photonics Taiwan, International Conference, Zhongli, Taiwan, 2013-THU-P0201-P023, 2013.
  94. Y.-W. You (尤彥文), J.-H. Dai (戴嘉恆), and Cheng-Ling Lee*(李澄鈴), “Polymer micro cavity fiber Fizeau interferometer for humidity sensor,” Optics & Photonics Taiwan, International Conference, Zhongli, Taiwan, 2013-THU-P0201-P018, 2013. (NSC 101-2221-E-239 -020)
  95. H.-J. Chang (張漢榮), G.-H. Chen (陳冠宏), and Cheng-Ling Lee*(李澄鈴), “Temperature characteristics of air-bubble/liquid coexisted in fiber Fabry-Pérot interferometers,” Optics & Photonics Taiwan, International Conference, Zhongli, Taiwan, 2013-THU-P0201-P014, 2013. (NSC 101-2221-E-239 -020)
  96. Cheng-Ling Lee*, Y.-C. Zheng, and H.-J. Chang, “Directional fiber-optic level meter based on a micro-air-bubble drifted in a liquid core fiber Fabry-Pérot interferometer,” CLEO, San Jose, California United States, JW2A. 57. pdf, 2013.
  97. C.-M. Li, C.-W. Chan, J.-S. Horng, J.-M. Hsu, and Cheng-Ling Lee*, “Fiber-optic twist sensor based on a tapered fiber Mach-Zehnder interferometer,” Conference on Lasers and Electro-Optics Pacific Rim (CLEO-PR), Kyoto, Japan, TuPL-7, 2013. (NSC 101-2221-E-239-020)
  98. Y.-C. Jen, W.-C. Shih, C.-L. Hsu, and Cheng-Ling Lee*, “Highly sensitive bending and airflow sensor based on an in-line multimode fiber interferometer,” 18th OptoElectronics and Communications Conference held jointly with International Conference on Photonics in Switching (OECC/PS), Kyoto, Japan, TuPS-20, 2013. (NSC 101-2221-E-239-020)
  99. H.-J. Chang, Y.-C. Zheng, C.-L. Ma, and Cheng-Ling Lee*, “Highly sensitive fiber-optic thermometer using an air micro-bubble in a liquid core fiber Fabry-Pérot interferometer,” 18th OptoElectronics and Communications Conference held jointly with International Conference on Photonics in Switching (OECC/PS), Kyoto, Japan, TuPS-16, 2013. (NSC 101-2221-E-239-020)
  100. Cheng-Ling Lee*, J.-M. Hsu, J.-S. Horng, and W.-Y. Sung, “Microcavity fiber Fabry-Pérot interferometer with embedded golden thin film for high temperature measurement,” IEEE 2nd International Symposium on Next-Generation Electronics (ISNE), Kaohsiung, Taiwan, pp. 415-416, 2013. (NSC 100-2221-E-239-038 and NSC 101-2221-E-239 -020)
  101. C.-C. Liu, Y.-W. You, L.-G. Sheu, J.-M. Hsu, and Cheng-Ling Lee*, “Phenomenon of hygroscopicity in a fiber Fabry–Pérot interferometer with an Absorbent polymer cavity,” Conference on Lasers and Electro-Optics Pacific Rim (CLEO-PR), Kyoto, Japan, TuPL-8, 2013. (NSC 101-2221-E-239-020)
  102. C.-L. Chen, C.-H. Hung, L.-G. Sheu, J.-S. Horng, and Cheng-Ling Lee*, “Probe typed microcavity fiber Fabry-Pérot interferometer for high temperature measurement,” 18th OptoElectronics and Communications Conference held jointly with International Conference on Photonics in Switching (OECC/PS), Kyoto, Japan, TuPS-17, 2013. (NSC 101-2221-E-239-020)
  103. C.-Y. Tai, C.-L. Chen, P. Han, and Cheng-Ling Lee*, “Ultrasensitive microtaper with an air-gap microcavity fiber Fabry-Pérot interferometer,” Conference on Lasers and Electro-Optics Pacific Rim (CLEO-PR), Kyoto, Japan, TuPL-6, 2013. (NSC 101-2221-E-239-020)
  104. Y.-W. You, C.-H. Lee, L.-G. Sheu, J.-M. Hsu, and Cheng-Ling Lee*, “A polymer-filled hollow core fiber Fabry-Pérot interferometer for liquid level sensing,” International Symposium on Nano Science and Technology, Tainan, Taiwan, PA-2, 2012.
  105. C.-H. Hung, P.-J. Huang, C.-W. Chan, and Cheng-Ling Lee*, “Air-gap fiber Fabry-Perot interferometer based on fiber endface with sn-overlay,” 17th Opto-Electronics and Communications Conference (OECC), Busan, Korea, P2-20, 2012. (NSC100-2221-E-239-038)
  106. R.-J. Kao, Y.-Y. Lin, and Cheng-Ling Lee*, “Fabrication of optical multilayer thin-film filters based on the Powell's optimization method,” 17th Opto-Electronics and Communications Conference (OECC), Busan, Korea, P2-31, 2012.
  107. C.-M. Li, Y.-L. Hsiao, C.-F. Lee, and Cheng-Ling Lee*, “In-fiber optical airflow sensor based on a tapered fiber interferometric cantilever,” 17th Opto-Electronics and Communications Conference (OECC), Busan, Korea, P2-21, 2012.
  108. T.-C. Chiang, Y.-L. Hsiao, C.-M. Li, and Cheng-Ling Leea*, “Leaky-guided multimode fiber interferometer for liquid level sensing,” 17th Opto-Electronics and Communications Conference (OECC), Busan, Korea, P1-46, 2012. (NSC100-2221-E-239-038)
  109. W.-Y. Sung, J.-K. Chao, C.-M. Li, L.-G. Sheu, J.-M. Hsu, and Cheng-Ling Lee*, “Micro-cavity fiber Fabry-Pérot interferometer (FFPI) with an embedded Au thin film,” International Symposium on Nano Science and Technology, Tainan, Taiwan, PA-19, 2012.
  110. C.-H. Hung (洪誠鴻), Y.-W. You (尤彥文), C.-M. Li (李家銘), Cheng-Ling Lee*(李澄鈴), and P.-J. Huang (黃柏蓉), “包覆錫微米球之空腔 Fabry-Perot 光纖干涉儀,” Optics & Photonics Taiwan, International Conference (OPTIC, formerly OPT), Taipei, Taiwan, PB-SA-II-(3)-3, 2012. (NSC 100-2221-E-239-038)
  111. P.-J. Huang (黃柏蓉), C.-H. Hung (洪誠鴻), J.-M. Hsu (徐瑞明), and Cheng-Ling Lee*(李澄鈴), “光子晶體光纖干涉儀之液體濃度感測應用,” Optics & Photonics Taiwan, International Conference (OPTIC, formerly OPT), Taipei, Taiwan, PB-SA-II-(4)-4, 2012.
  112. C.-M. Li (李家銘), T.-C. Chiang (江采晴), and Cheng-Ling Lee* (李澄鈴), “全光纖邁克森干涉儀之風向風速感測器,” Optics & Photonics Taiwan, International Conference (OPTIC, formerly OPT), Taipei, Taiwan, PB-SA-II-(3)-7, 2012. (NSC 100-2221-E-239-038)
  113. T.-C. Chiang (江采晴), Y.-C. Jen (任永昌), W.-C. Shih (石汶橙), and Cheng-Ling Lee* (李澄鈴), “耗散模式多模光纖干涉儀之高折射率液面感測,” Optics & Photonics Taiwan, International Conference (OPTIC, formerly OPT), Taipei, Taiwan, PB-SA-II-(3)-5, 2012. (NSC 100-2221-E-239-038)
  114. C.-H. Lee (黎晨晧), Y.-W. You (尤彥文), J.-M. Hsu (徐瑞明), and Cheng-Ling Lee* (李澄鈴), “高分子填注中空光纖Fabry-Perot光纖干涉儀之水深感測應用,” Optics & Photonics Taiwan, International Conference (OPTIC, formerly OPT), Taipei, Taiwan, PB-SA-II-(1)-10, 2012. (NSC 100-2221-E-239-038)
  115. C.-W. Chan (詹承緯), C.-M. Li (李家銘), J.-M. Hsu (徐瑞明), and Cheng-Ling Lee*(李澄鈴), “熔拉光纖干涉儀之旋轉感測器,” Optics & Photonics Taiwan, International Conference (OPTIC, formerly OPT), Taipei, Taiwan, PB-SA-II-(3)-8, 2012. (NSC 100-2221-E-239-038)
  116. Z.-Y. Weng, F.-C. Hu, W.-F. Liu, and Cheng-Ling Lee*, “A hybrid reflective long-period grating with an air-gap fiber Fabry-Perot interferometer,” The 16th Opto-Electronics And Communications Conference, OECC, Kaohsiung, Taiwan, pp. 477-478, 2011. (NSC 9S-222l-E-239-002-MY2)
  117. Y.-L. Hsiao, C.-M. Li, T.-C. Chiang, and Cheng-Ling Lee*, “A novel airflow sensor based on a reflective tapered fiber interferometer,” The 16th Opto-Electronics And Communications Conference, OECC, Kaohsiung, Taiwan, pp. 709-710, 2011. (NSC 9S-222l-E-239-002-MY2)
  118. L.-H. Lee, W.-B. Huang, H.-E. Hwang, and Cheng-Ling Lee*, “An air gap fiber Fabry-Perot interferometer based on a polymer-filled hollow core fiber,” The 16th  Opto-Electronics And Communications Conference, OECC, Kaohsiung, Taiwan, pp. 79-80, 2011. (NSC 9S-222l-E-239-002-MY2)
  119. K.-H. Lin, and Cheng-Ling Lee*, “Analysis of leaky-guided modes in multimode fiber interferometers,” Conference on Lasers and Electro-Optics/Pacific Rim, Sydney, Australia, 4700-PO-70, 2011.
  120. Z.-Z. Feng, Y.-N. Chen, J.-M. Hsu, Cheng-Ling Lee, and N.-K. Chen, “All-fiber Q-switched pulsewidth tunableerbium fiber laser using abrupt-tapered Mach-Zehnder filter,” 15th OptoElectronics and Communications Conference (OECC), Sapporo, Japan, 7P-32, 2010. (NSC 98-2221-E-239-001-MY2)
  121. W.-B. Huang, L.-W. Liu, Y.-L. Wang, W.-F. Liu, and Cheng-Ling Lee*, “Dispersion control in liquid core arc-induced long-period fiber gratings,” 15th OptoElectronics and Communications Conference (OECC), Sapporo, Japan, 8P-45, 2010. (NSC 98-2221-E-239-002-MY2)
  122. Z.-Y. Weng, C.-J. Lin, J.-M. Hsu, F.-T. Hwang, and Cheng-Ling Lee*, “Evanescent-field coupling of periodical silica thin film gratings on tapered fibers,” 15th OptoElectronics and Communications Conference (OECC), Sapporo, Japan, 9C4-5, 2010. (NSC 98-2221-E-239-002-MY2)
  123. Cheng-Ling Lee*, T.-N. Chang, Y.-Y. Lin, P. Han, and R.-K. Lee, “Powell’s method for designing optical multilayer thin-film filters,” 15th OptoElectronics and Communications Conference (OECC), Sapporo, Japan, 7P-66, 2010. (NSC 98-2221-E-239-002-MY2)
  124. W.-P. Huang, Y.-C. Chou, K.-H. Lin, and Cheng-Ling Lee*, “Spectral analysis of Mach–Zehnder hollow-cored fiber interferometer based on leaky guided modes interference,” Optics and Photonics in Taiwan, OPT2-P-028, 2010. (NSC 98-2221-E-239-002-MY2)
  125. Z.-Y. Weng, C.-M. Li, C.-J. Lin, and Cheng-Ling Lee*, “Ultrasensitive refractive index sensors based on a periodical silica thin-film long-period grating coated on tapered fiber,” Optics and Photonics in Taiwan, OPT5-P-019, 2010. (NSC 98-2221-E-239-002-MY2)
  126. W.-Y. Hong, C.-M. Li, Y.-C. Chou, Y.-P. Lee, and Cheng-Ling Lee*, “Broadband, modal and polarization-selective coupler based on elliptical-cored long-period fiber gratings,” Conference on International Symposium on Nano Science and Technology, Hainan, China, conf10a335, 2010. (NSC 97-2221-E-239-012 and NSC 98-2221-E-239-002-MY2)
  127. Cheng-Ling Lee*, and P. Han, “A spectral flat-top single resonant and ultrabroad band long-period fiber grating,” Proceeding of International Conference Opto-Electronics and Communications Conference, Hong Kong, ThLP21, 2009.
  128. Cheng-Ling Lee*, Y.-Y. Lin, and R.-K. Lee, “An optimal, high extinction ratio, broadband polarizer based on elliptical-cored long-period fiber gratings,” Conference on Laser and Electro Optics/Pacific Rim, Shanghai, China, TuP11-26, 2009. (NSC 97-2221-E-239-012)
  129. Cheng-Ling Lee*, and L.-W. Liu, “Long-period fiber grating in hollow core fiber filled with polymer,” Conference on Laser and Electro Optics/Pacific Rim, Shanghai, China, TuP9-10, 2009. (NSC 97-2221-E-239-012)
  130. C.-W. Hsin, Cheng-Ling Lee, K.-C. Hsu, and Y. Lai, “Optimization correction of spectral distortion for superimposed DWDM multichannel fiber Bragg grating filters,” Proceeding of International Conference Opto-Electronics and Communications Conference, Hong Kong, ThLP20, 2009.
  131. L.-W. Liu, and Cheng-Ling Lee*, “A long-period fiber grating in hollow core fiber filled with polymer,” Optics and Photonics in Taiwan, BP014, 2009. (NSC 97-2221-E-239 -012)
  132. Cheng-Ling Lee*, W.-Y. Yang, C.-M. Li, Y.-C. Chou, and Y.-C. Jheng, “Analysis of modal properties of elliptical-cored fibers with different aspect,” Optics and Photonics in Taiwan, BP029, 2009. (NSC 97-2221-E-239 -012)
  133. Cheng-Ling Lee*, K.-H. Lin, F.-C. Hu, C.-H. Chen, C.-H. Chen, and H.-Y. Wei, “Analysis of optical characteristics of ultrathin metal film on tapered fiber filter,” International Symposium on Nano Science and Technology, Tainan, Taiwan, PC10, 2009.
  134. Cheng-Ling Lee*, C.-M. Li, W.-Y. Hong, Y.-C. Chou, Y.-C. Jheng, and W.-Y. Yang, “Boradband modal and polarization-selective coupling in an elliptical-cored long-period fiber grating based coupler,” International Symposium on Nano Science and Technology, Tainan, Taiwan, PC09, 2009.
  135. L.-W. Liu, Cheng-Ling Lee*, and N.-K. Chen, “Broadband, zero and flattened dispersion in electrically controllable liquid crystal hollow core fibers,” Optics and Photonics in Taiwan, BP031, 2009. (NSC 97-2221-E-239-012)
  136. K.-Y. Lu, Z.-Z. Feng, N.-K. Chen, and Cheng-Ling Lee, “Evanescent wave flat-clad tapered fibers for integrated devices,” Optics and Photonics in Taiwan, BP071, 2009. (NSC-98-2221-E-239-001-MY2)
  137. Cheng-Ling Lee*, W.-Y. Yang, C.-M. Li, Y.-C. Chou, and Y.-C. Jheng, “Modal properties of elliptical-core few-mode fibers,” Conference on International Electron Devices and Materials Symposia, Tainan, Taiwan, GD05, 2009. (NSC 97-2221-E-239-012)
  138. Cheng-Ling Lee*, Y.-Y. Lin and R.-K. Lee, “Polarized elliptical-core long-period fiber grating with broadband resonance,” Optics and Photonics in Taiwan, BP040, 2009. (NSC-97-2221-E-239 -012)
  139. Z.-Z. Feng, N.-K. Chen, and Cheng-Ling Lee, “Successive abrupt fiber tapers for narrowband comb filters,” Optics and Photonics in Taiwan, BP064, 2009. (NSC-98-2221-E-239-001-MY2)
  140. Cheng-Ling Lee*, H.-P. Chuang, K.-C. Lai, I.-S. Hsieh, T.-F. Chang, J.-X. Fan, H.-H. Tsao, K.-C. Hsu, and N.-K. Chen, “A simple in-line fiber polarizer based on tapered flat-clad micro-fiber with a liquid cladding overlay,” Proceeding of SPIE, Asia-Pacific Optical Communications international conference APOC, Vol. 7134, No. 713445 (3pp), 2008.
  141. Cheng-Ling Lee*, R.-K. Lee and Y.-M. Kao, “Lagrange multiplier optimization synthesis of long-period fiber gratings,” IEEE/LEOS Asia Optical Fiber Communication (AOE) International Conference, Shanghai, China, P15, 2007.
  142. Cheng-Ling Lee*, “Tolerance analysis of optimal dispersionless fiber bragg gratings design,” Tenth OptoElectronics and Communications Conference (OECC), Seoul, Korea, 8D3-7, 2005. (NSC93-2218-E-239-005)
  143. Cheng-Ling Lee*, and Y. Lai, “An effective direct-search algorithm for inverse design of fiber grating filter,” Conference on Laser and Electro Optics/ Pacific Rim (CLEO/PR), Taipei, Taiwan, W2J-(14)-4, 2003.
  144. Cheng-Ling Lee, and Y. Lai, “Evolutionary programming synthesis of advanced fiber grating devices,” Conference on Lasers and Electro-Optics, Baltimore, MD, USA, CTuI5, 2003.
  1. 擔任國際期刊審查委員:Reviewer of IEEE Photonics Technology Letters, IEEE Photonics Journal, Optics Letters, Sensors, Optical Engineering, Optica Applicate, Sensor Letters, Optics Express, Sensors and Actuators A: Physical, Sensors and Actuators B: Chemical, Optics Communication, IEEE sensors J. and Optics and Lasers in Engineering since 2004~
  2. Member of IEEE(90560078) since 2005~
  3. Member of OSA(944432) since 2004~
  4. 擔任OPTIC 2014, 2016, 2017, 2019 conference committee
  5. 擔任OECC 2020 conference committee
  6. 受邀演講: 國立中興大學精密所
  7. 受邀演講: 國立清華大學光電所
  8. 受邀演講: 國立中央大學光電系(所)
  9. 受邀演講: 國立雲林科技大學電機系所
  10. 受邀演講: 國立嘉義大學電子物理學系
  11. 受邀演講: 國立交通大學光電所
  12. 受邀演講: 輔仁大學物理學系
  13. 受邀演講: 國立臺北科技大學光電系
  14. 受邀演講: 國立台灣科技大學電子系光電所
  15. 受邀演講: 國立彰化師範大學物理系
  16. 受邀演講: 國立中興大學機械所
  1. 新穎化學反應修飾銀鏡結構之金屬光纖法布里-珀羅干涉儀 <計畫主持人>
    (國科會 )
    執行期間:108年08月01日至109年07月31日
  2. 新穎錐形高分子光纖干涉儀之開發與其感測應用 <計畫主持人>
    (國科會 )
    執行期間:107年08月01日至108年07月31日
  3. 寬頻法布里-珀羅光纖干涉儀應用於微量材料其光學參數之多重感測(II) <計畫主持人>
    (國科會 )
    執行期間:106年08月01日至107年09月30日
  4. 寬頻法布里-珀羅光纖干涉儀應用於微量材料其光學參數之多重感測 <計畫主持人>
    (科技部 MOST 105-2221-E-239-013-)
    執行期間:105年08月01日至106年08月31日
  5. 精製化多功能感測之全光纖干涉儀 <指導教授>
    (大專生國科會 105-2815-C-239-011-E)
    執行期間:105年07月01日至106年02月28日
  6. 微型化全光纖式超音波感測器 <指導教授>
    (大專生國科會 104-2815-C-239-025-E)
    執行期間:104年07月01日至105年02月28日
  7. 微型菲佐光纖干涉儀之快速量測系統開發 <計畫主持人>
    (科技部 MOST 103-2622-E-239-003-CC3)
    執行期間:103年06月01日至104年07月31日
  8. 探針方向性光纖干涉儀流體感測器 <指導教授>
    (大專生國科會 103-2815-C-239-025-E)
    執行期間:103年07月01日至104年02月28日
  9. 探針式高靈敏微型化之Fizeau光纖干涉儀 <指導教授>
    (大專生國科會 102-2815-C-239-019-E)
    執行期間:102年07月01日至103年02月28日
  10. 全光纖式多模光纖干涉儀之生醫感測應用 <指導教授>
    (大專生國科會 101-2815-C-239-004-E)
    執行期間:101年07月01日至102年02月28日
  11. 色散控制下之光子晶體光纖干涉儀之高靈敏感測應用 <指導教授>
    (大專生國科會 100-2815-C-239-007-E)
    執行期間:100年07月01日至101年02月28日
  12. 動態式微型腔之法布里-珀羅光纖干涉儀其研製與感測應 <計畫主持人>
    (國科會 NSC 102-2221-E-239-033-MY3)
    執行期間:102年08月01日 至 105年07月31日
  13. 超微型光纖自干涉儀之特性研究(II) <計畫主持人>
    (國科會 NSC 101-2221-E-239-020)
    執行期間:101年08月01日 至 103年01月31日
  14. 可調式液晶光纖干涉儀光纖端面之介電質高反射多層膜之研製 <計畫主持人>
    (國科會 NSC 100-2622-E-239-006-CC3)
    執行期間:100年11月01日 至 101年10月31日
  15. 超微型光纖自干涉儀之特性研究 <計畫主持人>
    (國科會 NSC 100-2221-E-239-038)
    執行期間:100年08月1日 至 101年07月31日
  16. 扁平光殼熔拉光纖長週期光柵元件之研製 <指導教授>
    (大專生國科會 NSC 99-2815-C-239-015-E)
    執行期間:99年07月01日 至 100年02月28日
  17. 寬頻色散可裁製化光纖元件之研究 <計畫主持人>
    (國科會 NSC 98-2221-E-239-002-MY2)
    執行期間:98年08月01日 至 100年07月31日
  18. 寬頻液晶光纖光柵之研製 <指導教授>
    (大專生國科會 NSC 98-2815-C-239-004-E)
    執行期間:98年08月01日 至 99年04月30日
  19. 超寬頻可調式極化性長週期光纖光柵之研究 <計畫主持人>
    (國科會 NSC 97-2221-E-239-012)
    執行期間:97年08月01日 至 98年07月31日
  20. 拉格朗日法設計複雜光纖光柵元件之研究 <計畫主持人>
    (國科會 NSC 96-2221-E-239-014)
    執行期間:96年08月01日 至 97年07月31日
  21. 最佳化控制技術應用於線性及非線性光纖光柵之設計 <計畫主持人>
    (國科會 NSC 95-2221-E-239-002)
    執行期間:95年08月01日 至 96年07月31日
  22. 最佳化非線性準相位匹配光纖光柵之設計與製作 <計畫主持人>
    (國科會 NSC 94-2215-E-239-002)
    執行期間:94年08月01日 至 95年07月31日
  23. 新穎型進階光纖光柵元件之設計與製作 <計畫主持人>
    (國科會 NSC 93-2218-E-239-005)
    執行期間:93年08月01日 至 94年07月31日
  24. DWDM干涉濾光片之理論設計與製作 <計畫主持人>
    聯合工商基金會
    執行期間:93年01月01日 至 93年12月31日
  25. 光纖光柵感測在各物理場之多工檢測(子計劃)
    教育部
  26. 通訊科技教育改進計畫(I)(II)
    教育部