王倫教授的著作列表 - Publication List of Lon A. Wang

Publication List of 王倫 Lon A. Wang

Journal articles & book chapters:

  1. Yung-Pin Chen, Hsin-Chieh Chiu, Guan-Yu Chen, Chieh-Hsiu Chiang, Ching-Tung Tseng, Chih-Hsien Lee and Lon A. Wang, “Fabrication and Measurement of Large-Area Subwavelength Structures with Broadband and Wide-Angle Antireflection Effect,” Microelectron. Eng., vol. 87, pp. 1323-1327, Aug. 2010
  2. Tz-Shiuan Peng, Yen-Wei Huang, Lon A. Wang, Ren-Young Liu, and Fong-In Chou, “Photo-Annealing Effects on Gamma Radiation Induced Attenuation in Erbium Doped Fibers and the Sources Using 532-nm and 976-nm Lasers,” IEEE Trans. Nucl. Sci., vol. 57, pp. 2327 - 2331, Aug. 2010
  3. Shih-Min Chuo, Jian-Hong Chen, and Lon A. Wang, “Feasibility Study of Making Patterned Optical Devices Based on Microfibers for Optical Interconnect Applications,” IEEE Photonics Technology Letters, vol. 22, pp. 395-397, Mar. 2010
  4. Dehui Wan, Hsuen-Li Chen, Shao-Chin Tseng, Lon A. Wang, and Yung-Pin Chen, “One-Shot Deep-UV–Pulsed Laser-Induced Photomodification of Hollow Metal Nanoparticles for High Density Data Storage on Flexible Substrates,” ACS Nano, vol. 4, pp. 165-173, Dec. 2009
  5. Yung-Pin Chen, Cheng-Hung Chen, Jer-Haur Chang, Hsin-Chieh Chiu, Guan-Yu Chen, Chieh-Hsiu Chiang, Lien-Sheng Chen, Ching-Tung Tseng, Chih-Hsien Lee, Jia-Yush Yen, and Lon A. Wang, “Stitching periodic submicron fringes by utilizing step-and-align interference lithography,” J. Vac. Sci. Technol. B, vol. 27, no. 6, pp. 2951-2957, Dec. 2009
  6. Shih-Min Chuo, Meng-Hsun Wan, Lon A. Wang, and Jau-Sheng Wang, “Multi-stage Modified Fiber Drawing Process and Related Diameter Measuring System,” J. Lightwave Technol., vol. 27, pp 2983-2988, Aug. 2009
  7. Yung-Pin Chen, Yuet-Ping Lee, Jer-Haur Chang, and Lon A. Wang, “Fabrication of concave gratings by curved surface UV-nanoimprint lithography,” J. Vac. Sci. Technol. B, vol. 26, no. 5, pp. 1690-1695, Sept. 2008
  8. A1. Fang-Sung Cheng, Sen-Yeu Yang, Shih-Chih Nian and Lon A. Wang, “Soft mold and gasbag pressure mechanism for patterning submicron patterns onto a large concave substrate,” J. Vac. Sci. Technol. B, Vol. 24, No. 4, pp. 1724-1727, Nov. 2006
  9. A2. Jer-Haur Chang, Fang-Sung Cheng, Chi-Chung Chao, Yung-Chun Weng, Sen-Yeu Yang, and L. A. Wang, “Direct imprinting using soft mold and gas pressure for large area and curved surface,” J. Vac. Sci. Technol. A, Vol. 23, No. 6, pp. 1687-1690, Nov. 2005
  10. Jer-Haur Chang, Fang-Sung Cheng, Chi-Chung Chao, Yung-Chun Weng, Sen-Yeu Yang, and L. A. Wang, “Direct imprinting using soft mold and gas pressure for large area and curved surface,” J. Vac. Sci. Technol. A, Vol. 23, No. 6, pp. 1687-1690, Nov. 2005
  11. H. Lin and L. A. Wang, “Simulation of air bubble scattering effects in 193 nm immersion interferometric lithography,” J. Vac. Sci. Technol. B, Vol. 23, No. 6, pp. 2684-2693, Nov. 2005
  12. Ching-Fuh Lin, Cha-Hsin Chao, L. A. Wang, Wei-Chung Cheng, “Blackbody radiation modified to enhance blue spectrum,” J. Opt. Soc. Am. B, Vol. 22, No. 7, pp. 1517-1520, Jul. 2005
  13. Y. B. Lin, K. C. Chang, J. C. Chern, and L. A. Wang, “Packaging methods of fiber-Bragg grating sensors in civil structure applications,” Sensors Journal, Vol. 5, No. 3, pp. 419-424, Jun. 2005
  14. L. A. Wang and C. D. Lee, “Polarized Erbium-Doped Superfluorescent Fiber Source Utilizing Double-Pass Backward Configuration,” Applied Optics, Vol. 44, No. 1, pp. 77-82, Jan. 2005
  15. Yung Bin Lin, Kuo Chun Chang, Jenn Chuan Chern and L. A. Wang, “The health monitoring of a prestressed concrete beam by using fiber Bragg grating sensors,” Smart Materials and Structures, Vol. 13, No 4, pp. 712-718, Aug. 2004
  16. Yung Bin Lin, Jenn Chuan Chern, Kuo-Chun Chang, Yin-Wen Chan and L. A. Wang, “The utilization of fiber Bragg grating sensors to monitor high performance concrete at elevated temperature,” Smart Materials and Structures, Vol. 13, No. 4, pp. 784-790, Aug. 2004
  17. W. C. Cheng, F. D. Lai, H. M. Huang, and L. A. Wang, “Design of a tri-layer bottom anti-reflective coating for KrF, ArF and F2 lithographies,” Microelectronic Engineering, Vol. 73-74, pp. 59-62, Jun. 2004
  18. F. D. Lai, C. M. Chang, L. A. Wang, and T. S. Yih, “Ultrathin TiO2 amorphous films for high transmittance APSM blanks at 157 and 193 nm wavelength simultaneously,” J. Vac. Sci. Technol. B, Vol. 21, No. 6, pp. 3062-3066, Nov. 2003
  19. W. C. Cheng and L. A. Wang, “Phase masks working in 157 nm wavelength fabricated by immersion interference photolithography,” J. Vac. Sci. Technol. B, Vol. 21, No. 6, pp. 3078-3081, Nov. 2003
  20. H. C. Su and Lon A. Wang, “A Highly Efficient Polarized Superfluorescent Fiber Source for Fiber-Optic Gyroscope Applications,” IEEE Photon. Tech. Lett., Vol. 15, No. 10, pp. 1357-1359, Oct. 2003
  21. A16. H. L. Chen, Y. F. Chuang, C. C. Lee, C. I. Hsieh, F. H. Ko and L. A. Wang, “Low alkaline contamination bottom antireflective coatings for both 193- and 157-nm lithography applications,” Microelectronic Engineering, Vol. 67-68, pp. 312-318, Jun. 2003
  22. F. D. Lai, C. Y. Huang, C. M. Chang, L. A. Wang, W. C. Cheng, “Ultra-thin Cr2O3 Well-crystallized films for high transmittance APSM in ArF line,” Microelectron. Eng, Vol. 67-68, pp. 17-23, Jun. 2003
  23. W.C. Cheng, L.A.Wang and C.Y. Hsieh, “Phase masks fabricated by interferometric lithography for working in 248 nm wavelength,” Microelectron. Eng, Vol. 67-68, pp. 63-69, Jun. 2003
  24. O. V. Ivanov, Lon A. Wang, “Wavelength shift of cladding modes resonance in corrugated long-period fiber gratings under torsion,” Applied Optics, Vol. 42, No. 13, pp. 2264-2272, May 2003
  25. Wen-Yueh Su, Gia-Wei Chern and L. A. Wang, “Analysis of Cladding-Mode Couplings for a Lensed Fiber Integrated with a Long-Period Fiber Grating by Use of the Beam-Propagation Method,” Applied Optics, Vol. 41, No. 31, pp. 6576-6584, Nov. 2002
  26. G. W. Chern, J. F. Chang and L. A. Wang, “Modeling of nonlinear pulse propagation in periodic and quasi-periodic binary long-period fiber gratings,” J. Opt. Soc. Am. B, Vol. 19, No. 7, pp. 1497-1508, Jul. 2002
  27. F. D. Lai and L. A. Wang, “Design of (ZrO2)x/(Cr2O3)y/(Al2O3)1-x-y superlattices for high transmittance APSM at 193 nm wavelength,” Microelectronic Engineering, Vol. 61-62, pp. 219-226, Jul. 2002
  28. G. W. Chern and L. A. Wang, “Design of Binary Long-Period Fiber Grating Filters by the Inverse-Scattering Method with Generic Algorithm Optimization,” J. Opt. Soc. Am. A, Vol. 19, No. 4, pp. 772-780, Apr. 2002
  29. F. D. Lai and L. A. Wang, “Fabrication and Characterization of Aluminum Oxide/Chromium Oxide Optical Superlattice for APSM at 193nm Wavelength,” accepted for Thin Solid Films, Vol. 409, No. 2, pp. 220-226, Apr. 2002
  30. S.C. Fu, H.W. Lin, W.Y. Chou, L. A. Wang, and K.H. Hsieh, “Study of the synthesis and characterization of methacrylate photoresists,” J. Appl. Polym. Sci., Vol. 83, Nov. 9, pp. 1860-1869, Feb. 2002
  31. C.H. Lin and L.A. Wang, “Feasibility of utilizing hexamethyldisiloxane film as a bottom antireflective coating for 157 nm lithography,” J. Vac. Sci. Technol. B, Vol. 19, No. 6, pp. 2357-2361, Nov. 2001
  32. F. D. Lai and L. A. Wang, “Optical-Constant Tunable (ZrO2)x/(Cr2O3)y/(Al2O3)1-x-y Optical Superlattice for APSM in ArF Lithography,” J. Vac. Sci. Technol. B, Vol. 19, No. 6, pp. 2617-2620, Nov. 2001
  33. G. W. Chern, L. A. Wang and C. Y. Lin, “Transfer-Matrix Approach Based on Modal Analysis for Modeling Corrugated Long-Period Fiber Gratings,” Applied Optics, Vol.40, No.25, pp. 4476-4486, Sept. 2001
  34. F. D. Lai and L. A. Wang, “Optical properties of CrO/ZrO optical superlattice for attenuated phase shifting mask at 193 nm wavelength,” Microelectronic Engineering, Vol. 57-58, pp. 439-445, Sept. 2001
  35. C. H. Lin, H.L. Chen and L. A. Wang, “A Study on Adhesion and Footing Issues of HMDSO Films as Bottom Antireflective Coating for Deep UV Lithographies,” Microelectronic Engineering, 57-58, pp.555-561, Sept. 2001
  36. S. C. Fu, K. H. Hsieh and L. A. Wang, “Negative-tone cycloolefin photoresist for 193-nm lithography,” Proc. SPIE, Vol. 4345, pp. 751-760, Aug. 2001
  37. C. Y. Lin, L. A. Wang, and G. W. Chern, “Corrugated long-period fiber gratings as strain, torsion, and bending sensors,” IEEE J. Lightwave Technol., Vol. 19, No. 8, pp. 1159-1168, Aug. 2001
  38. C. Y. Lin, G. W. Chern and L. A. Wang, “Periodical corrugated structure for forming sampled fiber Bragg grating and long-period fiber grating with tunable coupling strength,” IEEE J. Lightwave Technol., Vol.19, No.8, pp.1212-1220, Aug. 2001
  39. L. A. Wang, C. Y. Lin, and G. W. Chern, “A torsion sensor made of a corrugated long period fibre grating,” J. of Measurement Science and Technology, Vol. 12, No. 7, pp. 793-799, Jul. 2001
  40. C. Y. Lin and L. A. Wang, “A wavelength- and loss-tunable band-rejection filter based on corrugated long-period fiber grating,” IEEE Photon. Tech. Lett., Vol.13, No.4, pp. 332-334, Apr. 2001
  41. C. H. Lin, L. A. Wang, and H. L. Chen, “Optimized bilayer hexamethyldisiloxane film as bottom antireflective coating for both KrF and ArF lithographies,” J. Vac. Sci. Technol., Vol. 18, No. 6, pp.3323-3327, Nov. 2000
  42. W. T. Chen and L. A. Wang, “Novel Optical Coupling Utilizing a Lensed Fiber Integrated with a Long-Period Fiber Grating,” Applied Optics, Vol. 39, No. 25, pp. 4490-4500, Sept. 2000
  43. G. W. Chern and L. A. Wang, “Analysis and Design of Almost-Periodic Vertical Grating Assisted Codirectional Coupler Filters with Nonuniform Duty Ratios,” Applied Optics, Vol. 39, No. 25, pp. 4629-4637, Sept. 2000
  44. L. A. Wang and H. L. Chen, “A novel bottom antireflective coating working for both KrF and ArF excimer laser lithography,” Microelectronic Engineering, Vol. 53, pp.141-144, Jun. 2000
  45. W. T. Chen and L. A. Wang, “Laser-to-fiber coupling scheme by utilizing a lensed fiber integrated with a long-period fiber grating,” IEEE Photon. Tech. Lett., Vol. 12, No. 5, pp. 501-503, May 2000
  46. C. D. Su and L. A. Wang, “Multiwavelength fiber sources based on double-pass superfluorescent fiber sources,” IEEE J. Lightwave Technol., Vol. 18, No. 5, pp. 708-714, May 2000
  47. S. C. Fu, K. H. Hsieh and L. A. Wang, “The kinetics of a negative-tone acrylic photoresist for 193-nm lithography,” J. Polym. Sci. A, Vol. 38, No. 6, pp. 954-959, Mar. 2000
  48. L. A. Wang and C. D. Su, “Modeling of a double-pass backward Er-doped superfluorescent fiber source for fiber-optic gyroscope applications,” IEEE J. Lightwave Technol., Vol. 17, No. 11, pp. 2307-2315, Nov. 1999
  49. G. W. Chern and L. A. Wang, “Transfer-matrix method based on perturbation expansion for periodic and quasi-periodic binary long-period gratings,” J. Opt. Soc. Am. A, Vol. 16, No. 11, pp. 2675-2689, Nov. 1999
  50. L. A. Wang and H. L. Chen, “Multilayer Hexamethyldisiloxane Film as bottom antireflective coating for ArF lithography,” J. Vac. Sci. Technol., Vol. 17, No. 6, pp. 2772-2775, Nov. 1999
  51. C. Y. Lin and L. A. Wang, “Loss Tunable Long Period Fiber Grating Made of Etched Corrugation Structure,” IEE Electron. Lett., 35, No. 21, pp. 1872-1873, Oct. 1999
  52. C. D. Su and L. A. Wang, “Effect of adding a long period grating in a double-pass backward Er-doped superfluorescent fiber source,” IEEE J. Lightwave Technol., Vol. 17, No. 10, pp. 1896-1903, Oct. 1999
  53. H. L. Chen, and L. A. Wang, “Hexamethyldisiloxane Film as the Bottom Antireflective Coating Layer for ArF Excimer Laser Lithography,” Appl. Optics, Vol. 38, No. 22, pp. 4885-4890, Aug. 1999
  54. C. D. Su and L. A. Wang, “Multiwavelength fibre source by using long period fibre gratings in superfluorescent fibre source,” IEE Electron. Lett., Vol. 35, No. 11, pp. 927-929, May 1999
  55. L. A. Wang, C. H. Lin and J. H. Chen, “Fabrication of sub-quarter-micron grating patterns by employing DUV holographic lithography,” Microelectronic Engineering, Vol. 46, No. 1-4, pp. 173-177, May 1999
  56. S. C. Fu, K. H. Hsieh and L. A. Wang, “Effect of a deprotection group on acrylic photoresist,” J. of Polymer Research, Vol. 6, No. 2, pp. 99-105, Apr. 1999
  57. W. T. Chen and L. A. Wang, “Optical coupling between single-mode fibers with the aid of a long-period fiber grating,” IEE Electron. Lett., Vol. 35, No. 5, pp. 421-423, Mar. 1999
  58. C. D. Su and L. A. Wang, “Linewidth broadening of Er-doped superfluorescent fibre source using long-period grating,” IEE Electron.Lett., Vol. 35, No. 4, pp. 331-332, Feb. 1999
  59. L. A. Wang and C. D. Chen, “Comparison of Er-doped superfluorescent fiber sources in double pass configurations,” J. of the Chinese Institute of Electrical Engineering, Vol. 6, No. 1, pp. 27-37, 1999
  60. L. A. Wang, C. W. Hsu, and H. L. Chen, “Characteristics of deuterium-loaded fiber bragg gratings,” Jpn. J. Appl. Phys., Vol. 37, No. 11, pp. 6001-6006, Nov. 1998
  61. H. L. Chen, L. A. Wang and C. W. Hsu, “Characteristics of plasma enhanced chemical vapor deposition-grown SiNx films prepared for deep ultraviolet attenuated phase-shifting masks,” J. Vac. Sci. Technol. B, Vol. 16, No. 6, pp. 3612-3617, Nov. 1998
  62. W. T. Chen and L. A. Wang, “Out-of-plane optical coupling between an elliptical Gaussian beam and an angled single-mode fiber,” IEEE J. Lightwave Technol., Vol. 16, No. 9, pp. 1589-1595, Sept. 1998
  63. 張國鎮, 陳振川, 王倫, 林詠彬, “光纖光柵感測器於結構應變量測之研究,” 中國土木水利工程學刊, 第十卷第三期, 1998
  64. L. A. Wang, S. H. Chang and Y. F. Lin, “Novel implementation method to realize all-optical logic gates,” Opt. Eng., Vol. 37, No. 3, pp. 1011-1018, 1998
  65. L. A. Wang and C. D. Chen, “Characteristics comparison of Er-doped double-pass superfluorescent fiber sources pumped near 980 nm,” IEEE Photon.Tech. Lett., Vol. 9, No. 4, pp. 446 -448, Apr. 1997
  66. L. A. Wang and C. D. Chen, “Comparison of efficiency and output power of optimal Er-doped superfluorescent fibre sources in different configurations,” IEE Electron. Lett., Vol. 33, No. 8, pp. 703-704, Apr. 1997
  67. C. L. Liou, L. A. Wang, M. C. Shih and T. J. Chuang, “Characteristics of hydrogenated fiber Bragg gratings,” Applied Physics A, Vol. 64, No. 2, pp. 191-197, Jan. 1997
  68. L. A. Wang and C. D. Su, “Tolerance analysis of aligning an astigmatic laser diode with a single-mode optical fiber,” IEEE J. Lightwave Technol., Vol. 14, No. 12, pp. 2757-2762, Dec. 1996
  69. L. A. Wang and C. D. Chen, “Stable and broadband Er-doped superfluorescent fibre sources using double-pass backward configuration,” IEE Electron. Lett., Vol. 32, No. 19, pp. 1815-1817, Sept. 1996
  70. C. C. Chen, L. A. Wang and S. Y. Kuo, “A wavelength encoded multi-channel optical bus for local area networks,” IEEE J. Lightwave Technol., Vol. 14, No. 3, pp. 315-323, Mar. 1996

Conference & proceeding papers:

  1. Tz-Shiuan Peng, Yi-Chang Hsieh, Lon A. Wang, Wen-Chen Chiou, and Ren-Young Liu, “Effects of Aluminum Doping Concentrations on Radiation Sensitivity of Erbium Doped Fibers,” 21st International Conference on Optical Fibre Sensors, Ottawa, Canada, May 2011
  2. Chih-Da Chang, Shih-Min Chuo, and Lon A. Wang, “Low Loss Arc Splicing of Silica Microfibers,” 21st International Conference on Optical Fibre Sensors, Ottawa, Canada, May 2011
  3. Hsiao-Yuh Wang, Shih-Min Chuo, and Lon A. Wang, “Fabrication and Simulation of Corrugated Long Period Microfiber Gratings,” 21st International Conference on Optical Fibre Sensors, Ottawa, Canada, May 2011
  4. Chieh-Hsiu Chiang, Yung-Pin Chen, and Lon A. Wang, “Fabrication of Subwavelength Silicon Structure to Have Anti-reflection and Low sliding Angle,” The 36th International Conference on Micro & Nano Engineering (MNE), P-NANO-60, Genoa, Italy, Sept. 2010
  5. Chih-Hsien Lee, Yung-Pin Chen, and Lon A. Wang, “A Novel Method to Fabricate Microlens Array with Normal Subwavelength Structure,” The 54th International Conference on Electron, Ion, and Photon Beam Technology & Nanofabrication, 2010
  6. B7. Ching-Tung Tseng, Tz-Shiuan Peng, Yung-Pin Chen, Jui-Chen Tsai, and Lon A. Wang, “Fabrication of Binary Phase Grating On the Fiber End by Using Two-Beam Interference lithography,” The 54th International Conference on Electron, Ion, and Photon Beam Technology & Nanofabrication, 2010
  7. Yen-Wei Huang, Tz-Shiuan Peng, Lon A. Wang, and Ren-Young Liu, “Performance Comparison of Fiber-Optic Gyroscopes using Single Pass Backward and Double Pass Backward Superfluorescent Fiber Sources,” 20th International Conference on Optical Fibre Sensors, Oct. 2009
  8. Tz-Shiuan Peng, Yen-Wei Huang, Lon A. Wang, Ren-Young Liu, and Fong-In Chou, “Photo-annealing Effects for Erbium Doped Fiber Sources after Gamma Irradiation Tests by Using 532 nm and 976 nm Lasers,” 20th International Conference on Optical Fibre Sensors, Oct. 2009
  9. Chih-Yu Huang, Wen-Lin Chan, Shih-Min Chuo, Jer-Haur Chang, Li-Lun Chen, and Lon A. Wang, “Packaged Symmetric/Asymmetric Corrugated Long Period Fiber Gratings for Refractive Index Sensing Applications,” 20th International Conference on Optical Fibre Sensors, Oct. 2009
  10. Meng-Hsun Wan and Lon A. Wang, “Measurement of Refractive Index Profiles Variation along a Fusion-splicing Tapered Optical Fiber,” 20th International Conference on Optical Fibre Sensors, Oct. 2009
  11. Yung-Pin Chen, Cheng-Hung Chen, Jer-Haur Chang, Hsin-Chieh Chiu, Guan-Yu Chen, Chieh-Hsiu Chiang, Lien-Sheng Chen, Ching-Tung Tseng, Chih-Hsien Lee, Jia-Yush Yen, Lon A. Wang, “Stitching periodic submicron fringes by utilizing step-and-align interference lithography (SAIL),” The 53rd International Conference on Electron, Ion, and Photon Beam Technology & Nanofabrication, 2009
  12. C. X. Yan and L. A. Wang, “Fabrication of 2D Photonic Crystal Slab Waveguides by Using Nanoimprint Lithography,” Proceedings of ASNIL, p. 136, Seoul, Korea, 2008
  13. Fang-Song Cheng, Sen-Yeu Yang, and L. A. Wang, “Patterning on curved substrates using soft mold and gas-bag pressuring mechanism,” MNE, 2005
  14. L. A. Wang, W. C. Chang, K. Y. Chi, S. K. Liu and C. D. Lee, “Study on 193-nm immersion interference lithography,” Photonics West, 2005
  15. H. Y. Chen, C. W. You, L. A. Wang, “節省成本的複行後向超螢光光纖光源,” 台灣光電科技研討會, 2004
  16. Oleg V. Ivanov and L. A. Wang, “Wavelength Shift and Split of Cladding Mode Resonance in Micro-Bended Long-Period Fiber Grating under Torsion,” CLEO/Pacific Rim, WP-(8)-11, 2003
  17. W. C. Cheng and L. A. Wang, “A Tri-layer Film Design as Bottom Antireflective Coating for KrF, ArF and F2 Lithographies,” Micro-and-Nano-Engineering, pp.242-243, Cambridge, UK, 2003
  18. L. A. Wang, C. Y. Lin and G. W. Chern, “Sensors Based on Fiber Gratings and Their Applications,” 光纖感測研討會, Taipei, 2003
  19. L. A. Wang and W. C. Cheng, “Printing 65nm Dense Lines by Using Phase Masks at 157nm Wavelength,” The Third International Symposium on 157 nm Lithography, 9/3-9/6 Antwerp, Belgium, 2002
  20. L. A. Wang, G. W. Chern, C. Y. Lin, W. T. Chen and C. D. Su, “Progress of Fiber Gratings Research for Communication and Sensing in NTU,” Photonics North, 2002
  21. L. A. Wang, C. D. Lee, H. C. Su and J. F. Chang, “An Insertion Loss Insensitive and Mean Wavelength Stable Polarized Superfluorescent Fiber Source,” Optical Fiber Communication Conference, 2002
  22. H. C. Su, C. D. Li and L. A. Wang, “Basis for a Polarized Superfluorescent Fiber Source in Bidirectional Pumping Double-Pass Configuration,” Optics and Photonics Taiwan'02, 2002
  23. H. C. Su and L. A. Wang, “A Polarized Superfluorescent Fiber Source in Bidirectional Pumping Double-Pass Configuration,” Optics and Photonics Taiwan'02, 2002
  24. Y. R. Lu, C. H. Lin and L. A. Wang, “A Bilayer Film Design as Bottom Antireflective Coating for KrF, ArF and F2 Lithographies,” Optics and Photonics Taiwan'02, 2002
  25. F. D. Lai and L. A. Wang, “Design of (ZrO2)x/(Cr2O3)y/(Al2O3)1-x-y Superlattice for High Transmittance APSM at 193nm Wavelength,” Micro- and Nano-Engineering, pp.362-363, Grenoble, France, 2001
  26. C.H. Lin and L. A. Wang, “Feasibility Study of Utilizing HMDSO Film as Bottom Antireflective Coating for 157 nm Lithography,” 45th EIPBN, pp. 372-373, Washington D.C., 2001
  27. L. A. Wang and F.D. Lai, “Optical-constant Tunable AlO/CrO/ZrO Optical Superlattices for APSM working in ArF Lithography,” 45th EIPBN, pp. 31-32, Washington D.C, 2001
  28. L. A. Wang, C.H. Lin, J.Y. Lee and J.H. Chen, “Reflective Type Imaging Interferometric Lithography,” 45th EIPBN, pp. 137-138, Washington D.C, 2001
  29. S. C. Fu, K. H. Hsieh and L. A. Wang, “The Negative-tone Cycloolefin Photoresist for 193 nm Lithography,” 25th SPIE International Symposium on Microlithography, 2001
  30. L. A. Wang, and W.T. Chen, “Fiber Dependence and Coupling Efficiency Limitation for a Lensed Fiber integrated with a long Period Fiber Grating,” Optical Fiber Communication Conference, Technical Digest, pp.MK6-1- MK6-3, 2001
  31. H. C. Su, C. D. Li, J. F. Chang and L. A. Wang, “A Polarized Superfluorescent Fiber Source in Double-Pass Backward Configuration,” Optics and Photonics Taiwan '01, pp. 480-482, 2001
  32. L. Lin, C. Y. Lin, G. W. Chern and L. A. Wang, “Growth of Cladding-Mode Resonance in Long Period Fiber Grating Based on Bending a Corrugated Fiber Structure,” Optics and Photonics Taiwan '01, pp. 549-551, 2001
  33. W. Y. Su, G. W. Chern and L. A. Wang, “Beam-Propagation-Method Analysis of Cladding-Mode Coupling in a Lensed Fiber Integrated with a Long Period Fiber Grating,” Optics and Photonics Taiwan '01, pp. 169-171, 2001
  34. J. F. Chang, G. W. Chern and L. A. Wang, “Modeling of Nonlinear Pulse Propagation in Binary Quasi-Periodic Long-Period Fiber Grating,” Optics and Photonics Taiwan '01, pp. 166-168, 2001
  35. 張國鎮, 陳振川, 羅俊雄, 王倫, 林詠彬, 鄭橙標, 林子剛, 丘惠生, 戴書麟, 郭建志, 潘志良, 郭原宏, “光纖感測器之製作與感測原理,” 光纖分佈式結構監測研討會, pp. 21-40, 2001
  36. 林志郎, 單秋成, 王倫, “內埋式FBGs多功感測器再複材內部應力/應變量測之應用,” 中國機械工程學會第十八屆全國學術研討會, pp. 463-469, 2001
  37. L. A. Wang, C.Y. Lin and G.W. Chern,, “Torsion Sensor Made of Corrugated Long Period Grating,” 14th Optical Fiber Sensors Conference, Conference Proceedings, FR 1-6, pp.640-643, 2000
  38. Y.B. Chang, J.C. Chern and L. A. Wang, “Characterization of a Prestressed Concrete Beam by Using Fiber Bragg Grating Sensors,” 14th Optical Fiber Sensors Conference, Conference Proceedings, P 3-37, pp.828-830, 2000
  39. C.H. Lin, H.L. Chen and L. A. Wang, “A Study on Adhesion and Footing issues of HMDSO films as Bottom Antireflective Coating for deep UV lithographies,” Micro- and Nano-Engineering 2000, R-9P, Jena, Germany, 2000
  40. L. A. Wang and F. D. Lai, “Optical Properties of CrO/ZrO Optical Superlattice for APSM at 193 nm Wavelength,” Micro- and Nano-Engineering 2000, AM4, Jena, Germany, 2000
  41. C.H. Lin and L. A. Wang, “An Optimized Bi-Layer HMDSO Film as Bottom Antireflective Coating for Both KrF And ArF Lithographies,” 44th EIPBN,Palm Spring Abstracts, 2000
  42. C.Y. Lin and L. A. Wang, “Corrugated Long Period Fiber Gratings as Band-Rejection Filters,” Optical Fiber Communication Conference, Technical Digest, pp. 20-22, 2000
  43. L. A. Wang and H. L. Chen, “A Novel Bottom Antireflective Coating Working for Both KrF and ArF Lithography,” Micro- and Nano-Engineering 99, pp.107-108, Rome, Italy, 1999
  44. L. A. Wang and H. L. Chen, “Optimization of ECR-PECVD Grown HMDSO Films for The Bottom Antireflective Coating Layer in ArF Lithography,” 43th EIPBN, paper DEDP7, pp. 49-50, Marco Island, FL, 1999
  45. H. L. Chen and L. A. Wang, “Simulation on a New Reflection Type Attenuated Phase Shifting Mask for Extreme Ultraviolet Lithography,” 24th SPIE International Symposium on Microlithography, paper 3676-62, p100, 1999
  46. H. L. Chen, F. D. Lai and L. A. Wang, “Silicon-Oxynitride Films Prepared for 157 nm Attenuated Phase Shifting Masks,” 24th SPIE International Symposium on Microlithography, paper 3679, pp.1085-1092, 1999
  47. C. D. Su and L. A. Wang, “Spectrum Broadening of Double-Pass Backward Er-doped Superfluorescent Fiber Sources Using Long Period Fiber Grating,” Optics and Photonics Taiwan '01, pp. 441-444, 1999
  48. H. L. Chen and L. A. Wang, “Etching Characteristics of SiNx Films for DUV Lithography Applications,” Proceedings of International Electron Devices and Materials Symposia, pp.262-264, 1998
  49. L. A. Wang, H. L. Chen and C. W. Hsu, “Phase Mask Fabrication Using DUV Photolithography,” Proceedings of International Electron Devices and Materials Symposia, pp.136-138, 1998
  50. L. A. Wang, H. L. Chen and C. H. Lin, “Beyond the 130 nm-Generation by Employing DUV Lithography,” International Conference on Next Decades of High Technologies’98, pp.143-145, Taipei, Taiwan, 1998
  51. L. A. Wang, C. H. Lin and H. L. Chen, “Fabrication of Sub-Quarter-Micron Grating Patterns by Employing DUV Holographic Lithography,” Micro-and-Nano-Engineering 98, pp.199-200, Leuven, Belgium, 1998
  52. L. A. Wang, H. L. Chen and C. H. Lin, “Fabrication of Phase Shifting Mask Patterns by Utilizing Top Surface Imaging Technique,” Fourth International Symposium on 193nm Lithography, pp. M-005/A-M-005/B, Tyrol, Austria, 1998
  53. L. A. Wang, H. L. Chen, C. W. Hsu and L. S. Yeh, “Optical Characteristics and Irradiation Stability of PECVD-Grown Sinx Films Prepared for DUV Attenuated Phase Shifting Masks,” 42th EIPBN, paper MKP7, Chicago, IL, 1998
  54. W. Hsu, L. A. Wang, and H. L. Chen, “Characteristics of Fiber Bragg Grating with Deuterium Loading,” SPIE, Vol. 3420, pp. 194-202, 1998
  55. D. Su and L. A. Wang, “Effects of Optical Feedback on Backward Er-Doped Fiber Superfluorescent Sources,” Vol. 3420, pp. 330-336, 1998
  56. W. T. Chen and L. A. Wang, “Employing an Out-of-Plane Coupling Model for Optical Sub-Assembly Packaging Applications,” SPIE, Vol.3420, pp. 306-310, 1998
  57. C. D. Su and L. A. Wang, “Tolerance Analysis of Laser-To-Fiber Coupling Using an Ultra-Thin Rod Lens,” Proc. PIERS, p.708, 1997
  58. C. H. Lin, H. L. Chen, C. W. Hsu, L. S. Yeh and L. A. Wang, “Fabrication of Sub-Half-Micron Patterns by Employing DUV Lithography,” Proceedings of International Electron Devices and Materials Symposia, pp113~115, 1997
  59. C. D. Su and L. A. Wang, “Characteristics of Double-pass Backward Er-doped Superfluorescent Fiber Sources with Different Mirror Reflectance,” Optics and Photonics Taiwan '01, pp. 235-238, 1997
  60. H. L. Chen, L. A. Wang, L. S. Yeh, C. W. Hsu, “Development of SiNx Films for Attenuated Phase Shifting Masks,” Optics and Photonics Taiwan '01, pp. 677-680, 1997
  61. 張國鎮, 陳振川, 王倫, 林詠彬, “光纖感測器應用結構自動監測系統之研究,” 第三屆結構工程研討會, 中華民國結構工程學會, pp. 505-513, 1996
  62. C. D. Su and L. A. Wang, “Laser-to-fiber Coupling by Using an Ultra-thin Rod Lens,” Proceedings of International Electron Devices and Materials Symposia, B5-4, pp. 161-163, 1996

Patents:

  1. 王倫, 蘇海清, “極化超螢光光纖光源架構,” 00555276, Sept. 2003
  2. 王倫, 陳學禮, “一種應用於極紫外光微影術中反射式衰減相位偏移光罩之創新,” 00523123, Mar. 2003
  3. 王倫, 陳學禮, “一種下抗反光塗佈層,” 00521174, Feb. 2003
  4. 王倫, 林俊彥, “波長及損耗可調之鋸齒狀長週期光纖光柵構件,” 00476420, Feb. 2002
  5. 王倫, 許志瑋, “新型相位光罩的製作方法,” 00409866, Oct. 2000
  6. C. M. Dai, L. A. Wang, H. L. Chen, “Formation of silicon nitride film for a phase shift mask at 193 nm,” US patent 6045954, Apr. 2000
  7. 戴昌銘, 王倫, 陳學禮, “做為一九三奈米相轉移光罩基材之氮化矽層,” 00381122, Feb. 2000
  8. 張國鎮, 陳振川, 林詠彬, 王倫, “土木結構光纖監測裝置之改良,” 00339843, Sept. 1998
  9. 王倫, 蘇朝達, 陳正大, “摻鉺超螢光光纖光源之改良,” 00336736, Jul. 1998