Faculty

Shien-Kuei Liaw Distinguished Professor
photo
Position
Distinguished Professor Vice Dean; Chair of Optoelectronic Technology Center
Education
Doctors, NTUME and NCTUEO  
E-mail
skliaw@mail.ntust.edu.tw
Room
EE705-2
Office hour
週一 78; 週四 78
Telephone
886-2-27376384
FAX
886-2-27376424
Homepage
Laboratory
Fiber Optics and Communications Lab. T2-506
Major Field
Optical fiber communication, optic sensing, optical measurement, patent and IPR
Course
intro to patent, principle and applications of optical fibers, optical fiber communication, fiber optics lab course

Record
2018.08
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2018.09 英國劍橋大學工程系 訪問教授
2018.08
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迄今 Vice Dean, CECS
2018.01
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2018.12 President of Taiwan Section, the Optical Society (OSA)
2017.08
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2018.07 Vice Chairman of ECE Dept
2017.01
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迄今 Secretary-General, Taiwan Photonics Society
2015.01
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2016.12 IEEE Photonic Society, Taipei Chapter Chair
2015.01
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迄今 國家實驗研究院 兼任研究員
2012.07
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2012.09 中央研究院應科中心訪問學者
2012.06
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迄今 台灣科技大學 特聘教授
2011.09
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2011.12 英國牛津大學工程科學系 訪問教授
2009.08
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2009.08 新加坡南洋理工大學訪問教授
2008.09
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2009.07 台灣科技大學技術移轉中心主任
2008.08
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2015.07 Director of Optoelectronics Center
2008.02
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2012.05 台灣科技大學電子系與光電所教授
2003.08
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2008.01 台灣科技大學電子系與光電所副教授
2000.08
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2003.07 台灣科技大學電子系助理教授
1996.05
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1996.11 美國貝爾通信研究所訪問研究員
1993.07
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1997.11 中華電信研究所技術幕僚
Honor & Awards
2017
中國電機工程學會高雄分會 “傑出工程師獎"
2015
中國電機工程學會 “傑出工程教授獎”
2015
台灣國際發明協會 "國際傑出發明家終身成就獎"
2014
台灣科技大學研究與創作優良獎
2012
榮升台灣科技大學特聘教授
2010
台灣科技大學研究與創作優良獎
2009
有庠科技論文獎 (通訊光電類) 
2008
台灣科技大學教學優良獎
2007
台灣科技大學研究與創作優良獎
2006
電信國家型計畫NTP期中執行績效最佳團隊
2005
中華民國斐陶斐榮譽學會會員
2004
中國電機工程學會 優秀青年電機工程師獎
1999
中華民國光學工程學會青年學術獎
1999
宏碁基金會龍騰博士論文獎
1999
經濟部中心企業研究博士論文獎 (R&D類)
1999
教育部產學問題研究 博士論文獎
1998
中華電信公司研究與教學獎第一名

Research

Research Achievement
Journal
[1] S.-K. Liaw, Y.-W. Lee, H.-W. Huang and W.-F. Wu, “Multi-wavelength linear-cavity SOA-based laser array for long-haul sensing”, submitted to IEEE Sensor Journal PJ-002855-2014, No. Sensors-10961-2015 in revision
[2] Burton, E. Bentley, R. Binns, Hoa Le Minh, S. K. Liaw and C. G. Lee, “High speed VLC system with bi-level transparent pulse width modulation dimming”, IEEE Journal on Selected Areas in Communications(JSAC-ST-OWC) 2014 Special Issue on Optical Wireless Communication, in revision
[3] K.-Y. Hsu, S.-K. Liaw, R.-Y. Liu, J.-G. Yeh and Y.-M. Lin, “Assessment of environmental factors on bi-directional 2x40 Gb/s DWDM optical wireless communication”, submitted to IEEE Photonic Journal, No. PJ-002855-2014
[4] Y.-W. Lee, S.-K. Liaw, J.-S. Chang, W.-F. Wu, “Single-longitudinal-mode linear-cavity Er3+-doped fiber laser using two subring cavities”, submitted to Optics & Laser Technology. No. JOLT-D-14-00927
[5] S.-K. Liaw, P.-S. Tsai, H. Wang, H.-L Minh and Z. Ghassemlooy, “Fiber-Bragg-grating- based reconfigurable bidirectional optical cross-connect”,submitted to Optics Commun.
[6] Y.-L.Yu, S.-K. Liaw, E. Skaljo, Hoa L-M. and Z. Ghassemlooy, “Bidirectional wavlength reconfigurable module based on tunable fiber Bragg grating and remote pump amplifier”, Fiber and Integrated Optics, UFIO-2914-1830, accepted
[7] H. Wang, H.-W. Chiu, S.-K Liaw and C.-C. Fan, “Saturable absorber based single-longitudinal-mode tunable fiber laser using a Faraday rotator mirror as the rear cavity end”, Optical Engineering, OE 140924R, accepted.
[8] A. Burton, Z. Ghassemlooy, S. Rajbhandari and S.K. Liaw, “Design and analysis of an angular-segmented full-mobility visible light communications receiver", Transactions on Emerging Telecommunications Technologies, ETT-13-0427, Special Issue: Optical Wireless Communication, vol. 25, Issue 6, pp. 591–599, June 2014.
[9] Y. L. Yu, S. K. Liaw*, W. C. Hsu, M. H. Shih and N. K. Chen, “Single longitudinal mode Ytterbium doped fiber lasers with large proposed tuning range”, Optical and Quantum Electronics, DOI 10.1007/s11082-014-9891-5, 2014.
[10] S.-K. Liaw*, W.-F. Wu and C.-S. Shin, “Tunable L band fiber lasers using fiber Bragg gratings and wavelength reflector”, Microwave and Optical Technology Letters, vol. 56, pp. 2681-2683, Nov. 2014.
[11] S.-K. Liaw*, C.-S. Shin and W.-F. Wu, “Tunable fiber laser using fiber Bragg gratings integrated carbon fiber composite with large tuning range”, Optics and Lasers Technology, vol. 64, pp. 302-307, December 2014.
[12] S. Shin, S. K. Liaw and S. W. Yang “Post-impact fatigue damage monitoring using fiber Bragg grating sensors”, Sensors Journals, vol. 14, Issue 3, pp. 4144-4153, 2014.
[13] H. Y. Hsu, Y. L. Yu, S. K. Liaw, R. Y. Liu and C. S. Shin, “Theoretical and experimental study of multifunction C+L band hybrid fiber amplifiers”, Optical & Laser Technology. vol. 56, pp. 307-312, 2014
[14] H. Y. Hsu, W. C. Lu, H. L. Minh, Z. Ghassemlooy, Y. L. Yu and S. K. Liaw, “2x80 Gbit/s DWDM bidirectional wavelength reuse optical wireless transmission”, vol. 5, No. 4, pp. 2553-2556, 2013, IEEE Photonics Journal.
[15] N.K. Chen, Z.Z. Feng, J. J. Wang, S.K.Liaw and H.C. Chui, “Interferometric interrogation of the inclination and displacement of tapered fiber Mach-Zehnder interferometers”, vol.13, No.94, pp. 3437-3441, 2013, IEEE Sensor Journal.
[16] H. Y. Hsu, Y. L. Yu, C. C. Tsai, S. K. Liaw, N. K. Chen and W. F. Wu, “Semiconductor Optical Amplifier based Multi-Wavelength Lasers in 0.4 nm Channel Spacing”, Laser Physics, vol.23, no. 9, 2013.
[17] Y. L. Yu, S. K. Liaw, R. Y. Liu and C. S. Shin, “WDM-PON Purpose Remote Pumped Bidirectional EDFA Using Cascading FBGs as a Pump Reflector”, Microwave and Optical Technology Letter, vol. 55, issue 11, pp. 2553-2556, 2013.
[18] S.K. Liaw, Y. C. Wang, Y. L. Yu, R. Liu and F. Payne, “Experimental investigation of bidirectional hybrid ?ber ampli?ers in a recycling-pump mechanism”, Lasers Physics Letters, vol. 9, No. 9, 658–661
[19] S.-K. Liaw, P.-S. Tsai, H. L. Minh, K.-Y Hsu and A. Tverjanovich, “Low-crosstalk 3 × 3 optical cross-connect using fiber Bragg gratings”, Fiber and Integrated Optics, vol.. 31, issue.4, pp. 229-236
[20] A. I. Gorbunov, S. K. Liaw and A. S. Tverjanovich, “Thermal expansion coefficient and relaxation parameters of glasses in the system GaX2-GeX2-Sb2X3 (X = S, Se)”, Glass Physics and Chemistry, vol. 38, no. 3, pp. 269-273
[21] S. K. Liaw, H. Wang, K. H. Hsu, S. C. Lin, N.-K. Chen and C.S. Shin and Y.Tver’yanovich, “Linear-cavity fiber laser in nearly single-frequency operation using Faraday rotator mirror”, Laser Physics, vol. 22, no. 2, pp. 437-440
[22] S. K. Liaw, Y. C. Wang, Y. L. Yu, R. Y. Liu and F. P. Payne, “Experimental Investigation of Bidirectional hybrid fiber amplifiers in a recycling-pump mechanism”, Laser Physics Letters, vol. 9, pp. 658-661, 2012.
[23] Mars N. Guo, S.-K. Liaw, Perry P. Shum, N.-K. Chen, H.-K. Hung and C. Lin, “Single-wavelength-pump-based bi-directional hybrid fiber amplifier for bi-directional local area network application”, Opt. Commun. 284, 573-578
[24] N.K. Chen, F.-Z. Liu, H.-P. Chuang, Y. Lai, S.-D. Yang, J.-W. Lin, S.-K. Liaw, Y.-C. Chang, C.-B. Huang and S. Chi, “High efficient femtosecond pulse stretching by tailoring cavity dispersion in erbium fiber lasers with an intracavity short-pass edge filter”, Optics Express, vol. 19, No. 17, pp. 15879-15884
[25] S.-K. Liaw, S. Wang, C.S. Shin, Y. L. Yu , N. K. Chen, K. C. Hus, A. Manshina and Y. Tver’yanovich, "Linear-cavity fiber laser using subring-cavity incorporated saturable absorber for single-frequency operation", Laser Physics, 2010, Vol. 20, No. 8, pp. 1744–1746.
[26] S.-K. Liaw, S. Wang, C.S. Shin, N. K. Chen, K. C. Hus, A. Manshina, Y.Tver’yanovich, C.-F. Su, and L. K. Wang, “Single-longitudinal-mode linear-cavity fiber laser using multiple subring-cavities", Laser Physics, vol. 20, No. 7, pp. 1608–1611
[27] N.K. Chen, Z.Z. Feng, and S.K. Liaw, “All-fiber pulsewidth tunable actively Q-switched erbium fiber laser using abrupt-tapered Mach-Zehnder block filter”Laser Phys. Lett. 7, no. 5, 363–366
[28] N.-K. Chen, J.-W. Lin, F.-Z. Liu and S.-K. Liaw, “Wavelength-tunable Er-doped fs mode-locked fiber laser using short-pass edge filters”, IEEE Photon. Technol. Lett., vol. 22, no. 10, pp. 700-702
[29] C. S. Shin, B. L. Chen, J. R. Cheng and S. K. Liaw, “Impact response of a wind turbine blade measured by distributed FBG sensors”, Special issue on Sensors, Actuators and Intelligent Processing, Materials and Manufacturing Process, 25:1-4, DOI:10.1080/10426910903426448
[30] C.-F. Su, L. K. Wang, S.-K. Liaw and Y.-S. Huang, “A colorless WDM-PON system using multi-wavelength light sources for optically-injection-locked transmitters”, Optical Fiber Technology 16 (2010) 1–4
[31] A. Povolotskiy, T. Ivanova, A. Manshina, Y. Tver’yanovich, S.-K. Liaw and C.L. Chang, “Er3+ as glass structure modifier of Ga–Ge–S chalcogenide system”, Appl Phys A no. 96, pp. 887–891, July 2009.
[32] K.-C. Hsu, N.-K. Chen, S.-Y. Chou, S.-K. Liaw, Y. Lai and S. Chi, “Wideband tunable Gaussian-shaped spectral filters based on dispersion-engineering”, Optical Fiber Technology, vol. 15, pp.373-376, June 2009.
[33] K.-C. Hsu, N.-K. Chen, S.-Y. Chou, S.-K. Liaw, Y. Lai and S. Chi, “Bandpass filter with variable bandwidth based on at tapered fiber with external polymer cladding”, IEEE Photon. Technol. Lett. vol. 21, no.13, pp. 935-937, July 2009.
[34] S.-Y. Chou, K.-C. Hsu, N.-K. Chen, S.-K Liaw, Y.-S. Chih, Y. Lai, and S. Chi, “Analysis of thermo-optic tunable dispersion-engineered short- wavelength-pass tapered-fiber filters,” IEEE/OSA J. of Lightwave Technology, vol. 27, no. 13, pp. 2208-2215, July 2009. (SCI)
[35] S.-K. Liaw, L. Dou, A Xu and Y.-S. Huang, “Optimally gain-flattened and dispersion-managed C + L-band hybrid amplifier using a single-wavelength pump laser”, Optics Communications, no. 282, pp. 4087–4090, 2009.
[36] S.-K. Liaw, I. G. Lai, C. L Chang and Oliver Sung, "AWG-based WDM PON monitoring system using an optical switch and a WDM filter”, Laser Physics Journal, vol. 18, no.9, pp.1052-1055, 2008. (SCI)
[37] S.-K. Liaw, K.-L. Hong and Y.-S. Shei, "Real-time monitoring implement in a remote-pumped WDM PON", Laser Physics Journal, vol. 18, no.8, pp.992-995, 2008. (SCI)
[38] S.-K. Liaw and Y.-S. Huang, “C+L band hybrid amplifier using FBGs for dispersion compensation and power equalisation”, Electronics Letters, vol. 44, no. 14, pp.844-846, 2008. (SCI)
[39] N.-K. Chen, K.-C. Hsu, S.-K. Liaw, Yinchieh Lai and S. Chi, “Influence of depressed-index outer ring on evanescent tunneling loss in tapered double-cladding fibers”, Optics Letters, vol. 13, no. 15, 1666-1668, August, 2008. (SCI)
[40] S.-K. Liaw, G.-S. Jhong, L.-T. Cho and C.-L. Chang, ”Implementation of tunable erbium doped fiber laser using a broadband fiber mirror”, Microwave and Optical Technology Letters, vol.50, no.7, pp.1722-1724, July, 2008. (SCI)
[41] S.-K. Liaw, K.-L. Hung, G.-S. Jhong, T. Yu. Ianova, A.A. Manshin and Yu.S. Tveryanovich, “Pump slope-improved fiber ring laser by recycling the residual pump power”, vol. 18, no.9, pp. 1040-1043, 2008. Laser Physics Journal. (SCI)
[42] S.-K. Liaw and K.-L. Hong, “Inclination sensing based on fiber ring laser and fiber Bragg grating with precise resolution", Laser Physics Journal, vol. 18, no.9, pp.1044-1047, 2008. (SCI)
[43] S.-K. Liaw, C.-K. Huang and Y.-L. Hsiao, “Parallel-type C+L band hybrid amplifier pumped by 1480 nm laser diodes", Laser Physics Letters, vol.5, no.7, pp.543-546, 2008. (SCI)
[44] S.-K. Liaw, Y.-S. Hsieh, W.-L. Cheng, C.-L. Chang and H.-F. Ting, “Bi-directional reconfigurable optical add/drop multiplexer with power compensated using built-in optical amplifiers”, OSA J. of Optical Networking, vol. 7, no. 7, pp. 622-671, 2008. (SCI)
[45] S.-K. Liaw and G.-S. Jhong, “Tunable fiber laser using a broadband fiber mirror and a tunable FBG as laser-cavity ends”, IEEE J. Quantum Electronics, vol. 44, no.6, pp.520-527, June 2008. (SCI)
[46] S.-K. Liaw, K.-L. Hung, Y.-T. Lin, C.-C. Chiang and C.-S Shin, “C-Band continuously tunable lasers using tunable fiber Bragg gratings”, Optics and Laser Technology, vol. 39, pp. 1214-1217, 2007. (SCI)
[47] L. Dou, S.-K. Liaw, M. Li, Y.-T. Lin and A. Xu, “Parameters optimization of high efficiency discrete Raman fiber amplifier by using the coupled steady-state equations”, Optics Comm. vol. 273, pp.149-152, January 2007. (SCI)
[48] S.-K. Liaw, W.-Y. Jang, C.-J. Wang and K.-L. Hung, “Pump efficiency improvement of a C-Band tunable fiber laser using optical circulator and tunable fiber gratings”, Applied Optics. vol.46, No.12, pp.2280-2285, April 2007. (SCI)
[49] S.-K. Liaw, C.-J. Wang, S.-H. Chen and Y.-T. Lin, “Reconfigurable optical add/drop multiplexer with 8.0 Db net gain using dual-pass amplified scheme”, IEICE Trans. Comm. vol. E90-B, no. 8, pp. 2016-2021, August 2007. (SCI)
[50] S.-K. Liaw, L. Dou and A. Xu, “Fiber-Bragg-grating -based dispersion- compensated and gain-flattened Raman fiber amplifier”, Optics Express, vol.19, no. 15, pp. 12356-12361, 2007. (SCI)
[51] C.-S. Shin, C.-C. Chiang and S.-K. Liaw, “Comparison of single and double cladding long period fiber grating sensor using an intensity modulation interrogation system”, Optics Comm. vol.1, no.258, pp. 23-29, 2006. (SCI)
[52] C.-S. Shin, C.-C. Chiang, C.-H. Lin and S.K. Liaw, “Temperature compensated fiber Bragg grating using fiber reinforced polymeric composites”, J. the Chinese Institute of Engineer.vol.29, no.3, pp.519-526, 2006 (SCI).
[53] L. Dou, M. Li, G. Li, A. Xu, D. Lan and S.-K Liaw, “Improvement in characteristics of a distributed Raman fiber amplifier by using signal-pump double-pass scheme”, Optical Engineering, vol. 45, No. 094201, pp.1-4, Sept. 2006. (SCI)
[54] M. Li, D. Liang, A. Xu, C.-K. Huang, Y.-G. Lai and S.-K. Liaw, “Performance enhancement of C+L band EDFA by recycling the residual pump lasers”, Microwave and Optical Technology Letters. vol. 48, no.10, pp. 1953-1955, 2006. (SCI)
[55] S.-K. Liaw, I.-G. Lai, M.-H. Chang and Y.-G. Lai, “High dynamic range C+L band variable optical attenuator using a tilted angle shutter" Microwave and Optical Technology Letters. vol.48, no.5, pp.1000-1002, 2006 (SCI)
[56] S.-K. Liaw, C.-K. Huang, L.-C. Mau, H.-X. Cao, J.-B. Horng and K.-P. Ho, “Low noise-figure miniature erbium-doped fiber amplifier using uncooled pump laser", Optical and Quantum Electronics. vol. 38, no. 7, pp. 625-631, 2006 (SCI).
[57] J.-A. Huang; K.-P. Ho; H.-K. Chen; S.-K. Liaw, and H.-C. Wang “Impacts of nonlinear phase noise to DPSK signals: experimental verification of a simplified theoretical model", IEEE Photon. Technol. Lett. vol.17, no.10, pp.2236-2238, 2005. (SCI)
[58] S.-K. Liaw, F.-C. Hung, Z. Xu, Y. Jiao, T. Qin, H. Zhang, Y. Guo, X. Zheng, “Wavelength tuning and multiple wavelengths array waveguide grating Lasers,” Optical Engineering., vol.42, no. 8, pp. 2178-2179, 2003. (SCI)
[59] S.-K. Liaw, K.-P. Ho and Y.-F. Chiang, “Polarization control technique to reduce power penalty in tri-directional transmission systems,” Fiber and Integrated Optics, vol. 22, pp. 275-282, 2003. (SCI)
[60] S.-K. Liaw and K.-P. Ho, “Reduction of power penalty in bidirectional wavelength reused lightwave system using polarization-control technology”, IEICE Trans. on Comm., vol. E86-B, No.5, pp.1585-1590, May 2003. (SCI)
[61] S.-K. Liaw, Z.-M. Hung and C.-F. Chen, “Reconfigurable optical cross-connect devices for optical information interchange in optical switching networks, Optical Memory & Neural Networks, vol. 11, no. 3, pp. 165-171, 2002. (SCI)
[62] C.-K. Liu, J.-J. Jou, S.-K. Liaw, and H.-C. Lee, "Computer-aided analysis of transients in fiber lasers and gain-clamped fiber amplifiers in ring and line configurations through a circuit simulator," Optics Comm., vol. 209, pp. 427-436, Aug., 2002. (SCI)
[63] S.-K. Liaw, S.-L. Tzeng and Y.-J. Hung, "Rayleigh backscattering induced power penalty on bidirectional wavelength reuse fiber systems”, Optics Communications 188, pp. 63-67, February 2001. (SCI)
[64] S.-K. Liaw, H.-Y. Tseng, S. Chi, Y.-J. Hung and K.-Y. Hsu, “Dynamic power-equalized fiber laser arrays using strain tunable pump reflectors” Optics and Lasers in Engineering, vol. 33, no.7, pp.231-235, 2000. (SCI)
[65] S.-K. Liaw, H.-Y. Tseng and S. Chi, “Parallel pump-shared linear-cavity lasers array using 980 nm pump reflectors or N pieces of gain fibers as self-equalizers,” IEEE Photon. Technol. Lett., vol. 12, no.1, pp.19-21, 2000. (SCI)
[66] K.-P. Ho, S.-K. Liaw and F.-K. Tong, “Bidirectional single-fiber multiwavelength ring networks,” IEICE Trans. on Communications., vol. E83-B, no. 10, pp. 2245-2252, October 2000. (SCI)
[67] S.-K. Liaw, S. Chi and H.-Y. Tseng, “Fiber-grating-based optical limiting amplifier module for dual-wavelength, hybrid data rate transmission,” Fiber and Integrated Optics, vol. 19, pp. 19-23, 2000. (SCI)
[68] S.-K. Liaw, C.-C. Lee, K.-P. Ho, C.-Y. Chen, S. Chi and Y.-K. Chen, “Dynamically wavelength-switching, gain-equal and high SNR fiber Bragg gratings ring laser,” CLEO’98, San Francisco, CA, paper CThO48
Conference
[1] Y. L. Yu, C. L. Lin, W. G. Wang, R. Y. Liu and S.K Liaw, “Bidirectional C+L band EDFA using pump reflector for recycling the residual pumping power” submitted to 2014 Optics and Photonics Conference, Taichung, Taiwan, Manuscript ID: 0844 Manuscript ID: 0844
[2] A. Saied, Z. Ghassemlooy, X. Dai, H, L, Minh, and S.-K. Liaw, “Pilot-aided asymmetrically clipped optical OFDM in visible light communication” submitted to The 2015 IEEE International Conference on Communications (ICC 2015), London, UK., Manuscript No. 3157 (1570051431)
[3] Y. L. Yu, W. H. Hsiao, W. C. Hsu, M. H. Shih and N. K. Chen, S. K. Liaw, “Tunable Ytterbium doped fiber lasers with near single longitudinal mode operation”, submitted to 2014 Optics and Photonics Conference, Taichung, Taiwan, Manuscript ID: 0877.
[4] H. Wang, W. H. Siao, H.-W. Chiu,C.-C. Fan, S.-K Liaw, “Faraday rotator mirror based single-longitudinal-mode tunable fiber laser using saturable absorber", submitted to 2014 Optics and Photonics Conference, Taichung, Taiwan. Manuscript ID: 0877.
[5] S.K. Liaw, “High capacity optical wireless communication”, IEEE Photonics Global Conference PGC 2015, Singapore Invited talk, to be presented
[6] S.K. Liaw, “SOA based fiber sensing technologies”, The 2015 EMN Optoelectronics Meeting , Meeting, April 24027, Beijing, China Invited talk, to be presented
[7] S.K. Liaw, “Optical amplifier modules: investigation and applications”, 2014 IEEE 12th International Conference on Solid-State and Integrated Circuit Technology, Guilin, China Invited talk, to be presented
[8] S.-K. Liaw, Y.W. Lee and W.-F. Wu, “Linear cavity fiber laser devices: design and investigation” 7th IEEE International Conference on Advanced Infocomm Technology (ICAIT 2014), FuChen, China Invited talk, to be presented
[9] S.-K. Liaw* and C.-S. Shin, “Overview for recent development in tunable fiber lasers”, IEEE ISNE 2014, New Taipei city, Taiwan. May 2014, also appeared in IEEE Proceeding (EI). Invited talk
[10] S.-K. Liaw*, Y.-W. Lee and W.-F. Wu, “Long-range multiwavelength sensing using semiconductor optical amplifier-based fiber laser”, IEEE ISNE 2014, New Taipei city, Taiwan. May 2014. also appeared in IEEE Proceeding (EI).
[11] Y.L.Yu, S.K. Liaw, C.C. Tsai, H.W. Huang, S.H. Chi, N.K. Chen, W.F. Wu, “ Semiconductor Optical Amplifier Based Fiber Laser with 33 Channel Numbers in 50GHz Channel Spacing”, to be presented in OPAP 2013, Singapore, Letter of Acceptance (ID 27)
[12] S.-K. Liaw, Y. L. Yu, Y.-C. Wang, W.-F. Wu and C.-C. Shin, “Bidirectional C+L Band Fiber Amplifiers in a Recycling-Pump Mechanism”, to be presented in OPAP 2013, Singapore, Letter of Acceptance (ID 33)
[13] H. Y. Hsu, W. C. Lu, H. L. Minh, Z. Ghassemlooy,Y. L. Yu and S. K. Liaw, “DWDM Bidirectional Wavelength Reuse Optical Wireless Transmission in 2x80 Gbit/s Capacity”, 2013 International workshop on optical and wireless, New Castle, UK.
[14] S.K. Liaw, “FBG based optical cross connect devices”, International Conference on Arts, Culture, New Media, and Entertainment 2013, Taipei, Taiwan Invited talk
[15] S.-K. Liaw, P.-S. Tsai, H. Le-Minh, Z. Ghassemlooy and W.-F. Wu, “BER evaluation for 3x3 reconfigurable multiwavelength bidirectional optical cross connect”, 4th IEEE International Conference on photonics 2013 (ICP 2013), Malaysia, Paper No. 1569795783
[16] S. S. Hong, Y. L. Yu, S. K. Liaw, R. Y. Liu and C. S. Shin, “Pump Reflector Based Remote Pumped Bidirectional EDFA for WDM PON Transport”, IEEE& CIC International Conference on Communications in China (ICCC) 2013. Paper ID: 1569763849.
[17] S.-K. Liaw, H. Wang and H.-Y Hsu, N.-K. Chen and C.-S. Shin, “Single Frequency Tunable Fiber Lasers for Optical Communications”, accepted, IEEE& CIC International Conference on Communications in China (ICCC) 2013. (Invited paper) , X’ian, China, August 2013
[18] T. Y. Lu, Y. L. Yu, Y. H. Lu, S. K. Liaw, N. K. Chen and W. F. Wu, “Multi-Wavelength Light Source in 50 GHz Channel Spacing Using Semiconductor Optical Amplifier”, submitted to IEEE International Conference on Advanced Infocomm Technology (ICAIT) 2013. Paper ID: 00375 July 2013. Hsin Chu, Taiwan
[19] G. C. Fan, H. Y. Hsu, Y. L. Yu, S. K. Liaw, R. Y. Liu and C. S. Shin, “Multifunction C+L Band EDFA/RFA Hybrid Fiber Amplifiers”, IEEE International Conference on Advanced Infocomm Technology (ICAIT) 2013. Paper ID: 00372 , Hsin-Chu, Taiwan, best student paper award
[20] S. K. Liaw, Y. L. Yu, W. C. Hsu, M. H. Shih and N. K. Chen, “Ytterbium Doped Tunable Fiber Lasers with Near Single Frequency Operation”, (invited paper), IEEE International Conference on Advanced Infocomm Technology (ICAIT) 2013. Paper ID: 00317 (Invited)
[21] Y. L. Yu, S. K. Liaw, H. Y. Hsu, H. L. Minh, Z. Ghassemlooy and E. Skaljo, “Bidirectional wavelength reconfigurable optical network using remote pump amplifier and tunable fiber Bragg gratings”, Fiber Optics in Access Networks (FOAN) 2013. Paper ID: 1569789509, Kazakhstan
[22] H. L. Minh, Y. L. Yu, S.K. Liaw, H.Y. Hsu, W. C. Lu, Z. Ghassemlooy, “DWDM bidirectional wavelength reuse optical wireless transmission in 2x80 Gbit/s capacity”, IWOW 2013, New Castle, UK.
[23] S.-K. Liaw, P.-S. Tsai, L.M. Hoa, Z. Ghassemlooy and W.F. Wu, “BER evaluation for 3x3 reconfigurable multi-wavelength bidirectional optical cross-connect”, PIER 2013, Taipei, Taiwan
[24] S. K. Liaw, Y. L. Yu, Y. C. Wang, W. F. Wu and R. Y. Liu, “Investigation of two bidirectional C+L band fiber amplifiers with pump sharing and pump reused mechanisms”, Progress in Electromagnetics Research Symposium (PIERS) 2013, in Taipei, Paper ID: 121119051750.
[25] S.K. Liaw, “Hybrid fiber amplifiers: investigation and applications”, The 2nd International Symposium on Next-Generation Electronics (ISNE 2013), Kaohsiung, Taiwan invited talk
[26] Y. L. Yu, S. K. Liaw, C. C. Tsai, N. K. Chen and W. F. Wu, “Multi-wavelength fiber lasers in 50 GHz channel spacing using a SOA and a MZI filter”, Optoelectronics, Photonics & Applied Physics (OPAP) 2013 in Singapore, OPAP13.27.
[27] S. K. Liaw, Y. L. Yu, Y. C. Wang, W. F. Wu and C. S. Shin, “Bidirectional C+L band fiber amplifiers in a recycling-pump mechanism”, Optoelectronics, Photonics & Applied Physics (OPAP) 2013 in Singapore, OPAP13.33.
[28] F. C. Liu, Y. K. Lee, N. K. Chen, and S. K. Liaw, “Multistage intra-cavity short-pass edge filters for high efficiency femtosecond pulsewidth stretching in mode-locked erbium fiber lasers,” PIERS 2012 conference, Moscow, Russia, Aug. 19-23, 2012. paper 120418020839.
[29] Z. Y. Chen, N. K. Chen, Z. Z. Feng, and S. K. Liaw, “All-optical gain-dependent phase modulation in micro abrupt-tapered Mach-Zehnder interferometers for high efficiency wavelength conversion,” PIERS 2012 conference, Moscow, Russia, Aug. 19-23, 2012. paper 120409131301
[30] S.K. Liaw, Y. C. Wang, Y. L. Yu, R. Liu and F. Payne, “Bidirectional hybrid fiber amplifiers in a recycling-pump mechanism”, 2012 International Symposium on Communication Systems, Networks and Digital Signal Processing, Poznan, Poland.
[31] Y. L. Yu, S. K. Liaw, M. H. Shih and N. K. Chen, “Wide tuning range Ytterbium doped tunable fiber laser with high efficiency”, Optics & Photonics Taiwan, International Conference (OPTIC) 2012 in Taipei, PC-SA-II-(1)-6 (poster).
[32] Z. Y. Chen, N. K. Chen, Z. Z. Feng, and S. K. Liaw, “All-optical gain-dependent phase modulation in micro abrupt-tapered Mach-Zehnder interferometers for high efficiency wavelength conversion,” PIERS 2012 conference, Moscow, Russia, Aug. 19-23, 2012. paper 120409131301.
[33] C.S. Shin, B. K. Tasi and K. S.K. Liaw, “Foreign object impact monitoring on wind turbine blade using FBGs", pp. 347, ISSN :1930-0395, Print ISBN:978-1-4244-9290-9, IEEE SENSORS conference 2011, Limerick, Ireland.
[34] S.K. Liaw, P.-S. Tsai and H. L. Minh, K.-Y. Hsu and A. Tverjanovich, “Low-crosstalk 3?3 optical cross-connect using fiber Bragg gratings”, ISSN : 2157-0221, Print ISBN: 978-1-4577-0682-0, Fiber Optics in Access Networks, 2011 3rd International Congress on Ultra Modern Telecommunications and Control Systems and Workshops (ICUMT), Budapest, Hungary
[35] N. K. Chen, Z. Z. Feng, T. H. Yang, K. Y. Lu, S. K. Liaw, and Y. N. Chen, “Wavelength tunable abrupt-tapered Mach-Zehnder interferometers for temperature sensing applications,” IEEE/SENSORS 2011 conference, Limerick, Ireland, Oct. 28-31, 2011. paper B3P-N3.
[36] S.K. Liaw, P. S. Tasi, K. Y. Hsu and S. J. Lin, “'Power-compensated 3x3 reconfigurable bidirectional multiwavelength cross-connect device based on strain tunable fiber Bragg gratings”, pp. 103-106, E-ISBN :978-1-86135-373-3, 2011 16th European Conference on Networks and Optical Communications (NOC), New Castle 2011, UK.
[37] S.K. Liaw, P.-S. Tsai and H. L. Minh, K.-Y. Hsu and A. Tverjanovich, “Low-crosstalk 3X3 optical cross-connect using fiber Bragg gratings”, ISSN : 2157-0221, Print ISBN: 978-1-4577-0682-0, Fiber Optics in Access Networks, 2011 3rd International Congress on Ultra Modern Telecommunications and Control Systems and Workshops (ICUMT), Budapest, Hungary.
[38] S.K. Liaw, “Multiple functions hybrid fiber amplifiers investigation”, Invited talk, 18 Oct. 2010, Intl’ workshop for Fiber Optics at Access Networks (FOAN), Moscow, Russia
[39] S.K. Liaw, “Advanced in optical amplifiers”, (Invited talk), 2 Nov. 2010, Int’l conference of Optics and Photonics Taiwan (OPT 2010), Tainan, Taiwan
[40] S. K. Liaw, K. S. Hsu, H. Wang, N. K. Chen, K. C. Hsu, J. C. Dung and P. Shum Perry, “Subring-based single-frequency fiber laser using Faraday rotate mirror as rear cavity end”, paper no. WO 4, 2010 IEEE Photonics Society annual meeting, November 2010, Denver, CO, USA.
[41] S. K. Liaw, S. Wang, C.S. Shin, Y. L. Yu, N. K. Chen, K. C. Hus, A. Manshina, and Y. Tver’yanovich, “Single-frequency operation linear-cavity fiber laser using compound mode filters”, paper no. 8P-26, 15th OptoElectronics and Communications Conference, July 5-9, 2010, Sapporo, Japan.
[42] M. N. Guo, S.-K. Liaw, P P Shum, N.-K Chen and C. Lin, “Bidirectional C+L band hybrid amplifier for 16-Channel WDM PON Transmission at 10Gb/s”, paper no. 7P-03, 15th OptoElectronics and Communications Conference, July 5-9, 2010, Sapporo, Japan
[43] Z.-Z. Feng, N.-K. Chen, S.-K. Liaw, “Tunable Mach-Zehnder Interferometers with High Extinction Ratios Using Abrupt Tapers in Er/Yb Codoped Fiber, paper no. 8P-23, 15th OptoElectronics and Communications Conference, July 5-9, 2010, Sapporo, Japan
[44] S.-K. Liaw, O. Seung, C.-L. Lai, Y.-L. Yu, K.-C. Hsu and N.-K. Chen, “L band tunable fiber laser based on mirror reflector and tunable fiber gratings", CLEO/PR 2009, Shanghai, China, paper no. 1091.
[45] S.-K. Liaw, W.-L. Cheng, Y.-S. Hsieh, C.-L. Chang and H.-F. Ting, “Power compensated bi-directional reconfigurable optical add/drop multiplexer using built-in optical amplifier”, 2008 Optical Fiber Communication Conference (OFC2008), Paper No. JWA39, San Diego, CA, USA 2008.
[46] S.-K. Liaw, G.-S. Jhong, Yu. S. Tver’yanovich and M. Alina, "C-band tunable fiber laser based on broadband fiber mirror as laser cavity ends" Paper No. 621-081, The International Conference on "Wireless and Optical Communications"(WOC 2008). Quebec city, Quebec, Canada.
[47] S.-K. Liaw, K.-P. Ho, C.-K. Huang, Y.-L. Hsiao and Y.-T. Lai, “Broadband hybrid EDFA/RFA using a single-wavelength pump laser” Paper No. 621-069, The International Conference on "Wireless and Optical Communications"(WOC 2008). Quebec city, Quebec, Canada.
[48] S.-K. Liaw, K.-L. Hong and G.-S.. Jhong, “Improved pump efficiency fiber Ring laser by recycling the residual pumping power”, submitted to 2008 Optoelectronic and Communication Conference 208 (ECOC2008).
[49] Y. S. Hsieh, S.-K. Liaw, Y.-T. Lai, C.-L. Chang and Oliver Shan, “Real time monitoring in a WDM PON based on array waveguide grating incorporated a DWDM filter”, 2008 Optoelectronic and Communication Conference (OECC2008).7-10 July 2008 Sydney, Australia.
[50] S.-K. Liaw, K. L. Hong, G.-S. Jhong and C.L. lee. ”Residual pumping power reused in fiber ring laser for pump slope improvement”, 2008 Optoelectronic and Communication Conference (OECC2008). 7-10 July 2008 Sydney, Australia. Paper No. 1-2.
[51] N.K.Chen, K.C. Hsu, S.-K. Liaw, Y. Lai and S.Chi, “Highly wavelength- dependent evanescent tunneling loss in dispersion-engineered tapered double-cladding fibers,” IEEE LEOS 2008 annual meeting, Paper Number: ThU 3, CA, USA.
[52] S.-K.Liaw, Y.S.Huang, N.K.Chen and K.C. Hsu, “Dispersion Management and Gain Flattened a hybrid EDFA/RFA in Pumping Recycling Mechanism”, IEEE LEOS 2008 annual meeting, Paper Number: TuX 3, CA, USA.
[53] S.-K. Liaw, K.-Lun Hong, Y.-S. Shei, N.-K. Chen and K.-C. Hsu, “Remote-pumped integrated real-time monitoring in a WDM-PON”, paper no. conf195a195, IEEE Global@Singapore 2008.
[54] S.-K. Liaw, L. Dou, M. Li, Y.-T. Lin and A. Xu, "Characteristic Optimization of Discrete Raman Fiber Amplifier by Using the Coupled Steady-State Equations" Paper No. 565-107, The International Conference on "Wireless and Optical Communications"(WOC 2007). Montreal, Quebec, Canada.
[55] S.-K. Liaw, W.Y. Jang, C.-J. Wang, K. L. Hung and T.-F. Wu, “High pumping efficiency tunable fiber laser based on optical circulator and fiber Bragg gratings", Paper No. 565-106, The International Conference on "Wireless and Optical Communications"(WOC 2007). Montreal, Quebec, Canada.
[56] C.-L. Lee, R.-K.Lee and S.-K. Liaw, “Design of dispersionless fiber Bragg grating filters by using Lagrange multiplier constrained optimization algorithm”, The 12th Optoelectronics and Communication Conference (OECC’2007), Yokohama, Japan, paper No. 12P-20.
[57] S.-K. Liaw, K.-L. Hung, G.-S. Jhong, L.-T. Cho, Y.-T. Lin and C.-C. Lee, “Wavelength tunable fiber laser using broadband fiber mirror integrated tunable fiber Bragg gratings”, The 12th Optoelectronics and Communication Conference (OECC’2007), Yokohama, Japan, paper No. 13P-18.
[58] L. Dou, A. Xu, S.-K. Liaw, C.-L. Chang and Y.-S. Huang, “Dispersion compensated and gain flattened Raman fiber amplifier using cascaded fiber Bragg gratings”, paper No. THP-6, 5th IEEE workshop on fibers and optical passive components (WFOPC 2007), Taipei Taiwan 2007.
[59] L. Dou, M. Li, Z. Li, A. Xu, C.-Y. David Lan and S.-K. Liaw, "Parameters optimization of a high efficiency discrete Raman fiber amplifier," to be presented in SPIE Asia-Pacific Optical Communications, Wuhan, China, 2007.
[60] S.-K. Liaw, G.-S. Jhong, C.-L. Chang, Y.-S. Hsieh and Jimmy Chen, “Tunable fiber laser based on broadband fiber mirror and tunable fiber Bragg gratings as fiber cavity ends”, paper No. F2A-5, 5th IEEE workshop on fibers and optical passive components (WFOPC 2007), Taipei Taiwan 2007.
[61] K.-L. Hong, S.-K. Liaw and C.-S. Shin”, Fiber Bragg gratings based ring laser for precisely inclination sensing”, paper No. W2A-4, 5th IEEE workshop on fibers and optical passive components (WFOPC 2007), Taipei Taiwan 2007.
[62] X. Zheng, X. Yu, H. Zhang, Y.-T. Lin and S.-K. Liaw, “Optical generation of tunable microwave by using PSRF and M-Z modulator”, OECC2006, Kaohsiung, Taiwan, paper PD-06.
[63] S.-K. Liaw, K.-P. Ho, C.-K. Huang, H.-C. Wang and Y.-T. Lai, “Hybrid C+L band EDFA/RFA with shared 1480 nm pump laser”, OECC2006, Kaohsiung, Taiwan, 4P-016.
[64] S.-K. Liaw, M. H. Chang, C.-J. Wang, W.-L. Cheng, X. Zheng and H. Zhang, “Dual-pass amplified reconfigurable optical add/drop multiplexer with 8.0 dB net gain”, OECC2006, Kaohsiung, Taiwan, paper 6E1-4.
[65] D. Liang, M. Li, Z. Li, A. Xu, C.-Y. Lan, Y.-T. Lai and S.-K. Liaw, “Characteristics imporvement of Raman fiber amplifier by using signal/pump double pass scheme” OECC2006, Kaohsiung, Taiwan, paper 4P-011.
[66] M. Li, D. Liang, A. Xu, C.-K. Huang, Y.-L. Hsiao and S.-K. Liaw, “Characteristics improvement of C+L band EDFA by recycling the residual pump power”, OECC2006, Kaohsiung, Taiwan, paper 4P-010.
[67] S.-K. Liaw, C.-C. Chiang, C.-S. Shin, G.-H. Chung and K.-L. Hung, “High performance ring-cavity tunable lasers based on fiber Bragg gratings”, The six International Joint Conf. on Information and Computing (JCIS2006), Kaohsoung, Taiwan, paper PNC-12.
[68] S.-K. Liaw, K.-P. Ho, C.-K. Huang, W.-T. Chen and Y.-L. Hsiao, “Investigate C+L band EDFA/Raman amplifiers by using the same pump lasers”, The six International Joint Conf. on Information and Computing (JCIS2006), JCIS2006, Kaohsoung, Taiwan, paper PNC-11.
[69] C.C. Chiang, C.S. Shan and S.K. Liaw, “An intensity modulation based high-speed and high-resolution long-period fiber grating sensor interrogating system,” No. 6377-30, Optics East 2006, Boston, MA, USA.
[70] S.-K.Liaw, C.Chiang and C.S. Shan, “Reconfigurable optical add/drop multiplexer with 8.0 dB net gain using double pass amplified scheme”, No.6389-44, Optics East 2006, Boston, MA, USA
[71] S.-K. Liaw, Y.-G. Lai, M.-H. Jang and T.-F. Wu, “High-dynamic-range variable optical attenuator using a titled-angle movable shutter”, OECC2005, Seoul, Korea, Paper No. 5E2-4.
[72] C.-S. Shin, C.-H. Lin, C.-C. Chiang, C.-J. Wang, and S.-K. Liaw, “Temperature compensated fiber Bragg grating using fiber reinforced polymeric composites”, OECC2005, Seoul, Korea, Paper No.8D2-5.
[73] S.-K. Liaw, C.-K. Huang, L.-C. Mau, H.-X. Cao and J.-B. Horng, “Temperature independent mini-size erbium-doped fiber amplifiers with low noise-figure”, IQEC/CLEO-PR 2005, Tokyo, Japan, Paper No. 00836.
[74] S.-K. Liaw, M. H. Chang and C.-J. Wang, “Reconfigurable optical add/drop multiplexer with 23.5 dB gain using dual pass amplification scheme”, IQEC/CLEO-PR 2005, Tokyo, Japan, Paper No. 00827.
[75] S.-K. Liaw, H.-H. Liao, H.-H. Chi, Y.-J. Liu and J.-S. Ko, “Tunable fiber grating based active optical add/drop multiplexer with 15.2 dB gain, The 9th Optoelectronics and Communication Conference (OECC’2004), Yokohama, Japan, paper 13P-105, pp. 320-321.
[76] S.-K. Liaw, H.-C. Chen, Y-C. Lai, and Y.-J. Liu and J.-S. Ko, “C-band continuously tunable lasers based on fiber Bragg gratings, The 9th Optoelectronics and Communication Conference (OECC’2004), Yokohama, Japan, paper 13P-89, pp. 288-289.
[77] Z. Xu, Y. Jiao, T. Qin, S.-K. Liaw, F.-C. Hung, H. Zhang, Y. Guo, X. Zheng, “Array Waveguide Grating Based Fiber Lasers,” The 8th Optoelectronics and Communication Conference (OECC’2003), Shanghai, China, Shanghai.,pp. 507-508
[78] S. –K. Liaw, F.-C. Hung, Y.-F. Chiang, Y.-M. Liu, J.-W. Liaw, H. Zhang, “Gain flattened Raman fiber amplifier using parameter optimization and DCF fiber,” The 8th Optoelectronics and Communication Conference (OECC’2003), Shanghai, China, pp. 493-494, 2003.
[79] S.-K. Liaw, S.-C. Liu, C.-K. Liu, C.-F. Chen, K.-H. Lin and C.-Z. Nee, “Gain-flattened optical amplifier using strain-tunable fiber grating filters”, Conference of Optics in Computing 2002, Taipei, Taiwan, ROC., paper PTuB7.
[80] S.-K. Liaw, S.-C. Liu and K.-P. Ho “Polarization-controlled wavelength-reused bidirectional transmission, The 7th Optoelectronics and Communication Conference (OECC’2002), Yokohama, JP, paper 10P-14.
[81] S.-K. Liaw, C.-M. Hung, S.-C. Liu, C.-W. Hsiao and T.-F. Wu, “Experimental demonstration of a 3x3 optical cross-connect device using strain-tunable fiber gratings, The 7th Optoelectronics and Communication Conference (OECC’2002), Yokohama, JP, paper 9B2-3.
[82] S.-K. Liaw, B. Z. Lo and S. Chi, “Simultaneously dispersion compensation and gain flattened signals in a lightwave system using grating based amplifiers”, SCI’2001, Orlando, FL, USA. (withdraw)
[83] S.-K. Liaw and C.-C Yang, “Wavelength-selective NxN optical cross-connect devices using strain-tunable fiber Bargg gratings”, Conference on Laser and Electro-Optics, Pacific Rim, CLEO/PR2001, Chiba, Japan, paper ThI2-5, II692~693.
[84] S.-K. Liaw, S.-L. Tzeng and Y.-J. Hung, “Power penalty induced by Rayleigh backscattering in a bi-directional wavelength reused system,” Conference on Laser and Electro-Optics, CLEO’2001, Baltimore, MY, paper CThL54.
[85] S.-K. Liaw and S. Chi, “Possible impairments on fiber-Bragg gratings-based optical cross-connect devices,” International Photonics Conference 2000, (IPC2000), Hsin-Chu, Taiwan, ROC., paper Th-T2-P011.paper F-T4-G006.
[86] H.-Y. Tzeng, S.-K. Liaw and S. Chi, “Power-equalized fiber-Bragg- grating-based fiber lasers using parameter-adjustment,” International Photonics Conference 2000, (IPC’2000), Hsin-Chu, Taiwan, ROC., paper Th-T2- P011.paper Th-T2-D006.
[87] S.-K. Liaw, K.-P. Ho, L.-K. Chen, F. Tong and S. Chi, “Fiber Bragg gratings based multiwavelength cross-connect device with high dynamic range, “, 1999 Conference on Optical Fiber Communication, OFC’1999, San Diego, CA, USA. paper WM42.
[88] K.-P. Ho, S.-K. Liaw, and F. F.-K. Tong, “Bidirectional multiwavelength ring networks: Performance analysis and experimental studies,”' IEEE 1999 International Conference on Communications, (ICC’1999), Vancouver, Canada, June 6-10, 1999, paper S51.5.
[89] Y.-K. Chen, C.-C. Lee, S.-K. Liaw, C.-S. Wang and Y.-K. Tu, “Wavelength conversion by erbium-doped fiber ring cavity with fiber grating,” in Proc. LEOS’97, (IEEE) paper MK3, 1997.
[90] S.-K. Liaw, C.-C. Lee, Y.-K. Chen, K.-P. Ho and S. Chi, “Chirped-fiber grating integrated optical limiting amplifier for dispersion compensation,” in Proc. LEOS’97, (IEEE) paper MC3, 1997.
[91] C.-.C. Lee, Y.-K. Chen, S.-K. Liaw, F.-Y. Tsai, C.-S. Wang, Y.-K. Tu, “Single-longitudinal-mode fiber laser by using passive multiple-ring-cavity technique,” CLEO’98, San Francisco, CA, paper ThO47.
[92] Y.-K. Chen, S.-K. Liaw and C.-C. Lee, “Multiwavelength dynamically selective cross-connect based on fiber Bragg gratings and optical switches,” CLEO’98, San Francisco, CA, paper CWT4, 1998.
[93] S.-K.Liaw, K. -P. Ho and S. Chi, “Proposed fiber Bragg gratings integrated optical switches for wavelengths cross-connect in WDM networks,” in Proc. LEOS’98, (IEEE) paper FE1, 1998.
[94] Y.-K. Chen, C.-C. Lee, S.-K. Liaw, C.-H. Chang and Y.-K. Tu, “Large nonblocking multi- wavelength cross-connects based on fiber Bragg gratings for WDM networks,” in International Photonics Conference 1998, IPC’98.(SPIE Taiwan chapter).
[95] C.-.C. Lee, Y.-K. Chen, S.-K. Liaw, F.-Y. Tsai, C.-S. Wang, Y.-K. Tu, “Single- longitudinal-mode fiber laser by using passive multiple-ring-cavity technique,” in International Photonics Conference 1998, IPC’98. (SPIE Taiwan chapter).
[96] K.-P. Ho and S.-K. Liaw, “Multiwavelength WDM source generated by four- wave-mixing in a dispersion-shifted-fiber,” in International Photonics Conference 1998, IPC’98. (SPIE Taiwan chapter).
[97] S.-K. Liaw, Y.-K. Chen and C.-C. Lee, “System demonstration of four-channel wavelength tunable WDM add/drop multiplexer using an optical-switch pair and fiber Bragg gratings,” OFC’98, San Jose, CA, paper WM39.
[98] K.-P. Ho and S.-K. Liaw, “Crosstalk rejection requirements for hybrid WDM system with analog and digital channels,” OFC’98, San Jose, CA, paper WM32.
[99] S.-K. Liaw, K.-P. Ho, C. Lin and S. Chi, “Repeated multi-channel bidirectional transmission by using of a WDM MUX/DMUX pair for narrowband filtering,” CLEO’97, Baltimore, MY, paper CWF66.
[100] K.-P. Ho, S.-K. Liaw and C. Lin, “Frequency doubling photonic mixer with low conversion loss,” OFC’97, Dallas, TX, paper FD2.
[101] C. Lin, K.-P. Ho, H. Dai, S.-K. Liaw, H. Gysel and M. Ramachandram, “High capacity digital and analogy video trunking distribution based on hybrid WDM systems,” OFC’97, Dallas, TX, paper ThS3.
[102] F. Shehadeh, T. Suzaki, J.-C. Chiao, K.-P. Ho, S.-K. Liaw and R. S. Vodhanel, “Impact of external modulator chirp for 10 Gb/s transmission in an 8-wavelength 8 node WDM ring network,” OFC’97, Dallas, TX, paper TuE4.
[103] S.-K. Liaw, K.-P. Ho and C. Lin, “High output power erbium-doped fiber grating ring laser,” CLEO’97, Baltimore, MY, paper CThL69.
[104] K.-P. Ho, S.-K. Liaw and C. Lin, “Performance of an eight-wavelength bidirectional WDM add/drop multiplexer with 80 Gb/s capacity,” OFC’97, Dallas, TX, paper TuR1.
[105] S.-K. Liaw, Y.-K. Chen, J.-W. Liaw and Y –K. Tu, “Gain-equalized EDFA using samarium-doped fiber and forward pumping,” 1996 International Telecommunication Symposium (ITS’96), Taipei, Taiwan, paper TE4.
[106] Y.-K. Chen, S.-K. Liaw, W.-Y. Guo, and S. Chi, "Multi-wavelength optical power limiting amplifier and its applications in SONET WDM self-healing ring network," CLEO’96, San Francisco, CA, paper CTuU7.
[107] Y.-K. Chen, S.-K. Liaw, W.-Y. Guo, and S. Chi, "Multi-wavelength optical power limiting amplifier and its applications in SONET WDM self-healing ring network," CLEO’96, San Francisco, CA, paper CTuU7.
[108] S.-K. Liaw, Y.-K. Chen, H.-Y. Yang, C.-L. Tzeng, and J.-W. Liaw, "Passive gain equalization of erbium-doped fiber amplifier using samarium-doped fiber for multiwavelength transmission," CLEO’96, San Francisco, CA, paper CMA5.
Patent
[1] C. L. Chang, G. Keiser, S. K. Liaw and Y. S. Huang, "Signal switching module for optical network and fault locating" US No. 8311409, 2012.11.13
[2] C. L. Chang, G. Keiser, S. K. Liaw and Y. S. Huang, "Bidirectional multi-wavelength optical signal routing and amplification module" US No. 8306417B2, 2012/11/06
[3] S.-K. Liaw, G. S. Jhong and C. A. Chen, "Broadband fiber laser" US No. 7616667B2, 2011.01
[4] S.-K. Liaw, G. S. Jhong and C. A. Chen, "Broadband fiber laser" US No. 8,040,925B2, 2010.10.18
[5] 廖顯奎、黃政凱、王俊容,“光纖雷射泵激光源架構”中華民國專利 No. I303908, 2008.12.01-2026.03.27
[6] S.-K. Liaw, G. S. Jhong and C. A. Chen, “Broadband fiber laser—part 1 ”, US paten no.7616667 B2
[7] 廖顯奎、黃政凱、王俊容,“光纖雷射泵激光源架構”中華民國專利 No. I303908, 2008.12.01-2026.03.27
[8] 廖顯奎、詹君儀、柯錦山,“光信號可重構元件”中華民國專利 No. I259127, 2008.03.21-2022.12.26
[9] I. G. Lai, S.-K. Liaw and Y.T. Lin, “Detection system for identifying faults in passive optical networks”, US paten pending since 2007.09 Reg. No. 11/852622, Since 2007.9, 聯誠專利事務所代辦(申請中)
[10] S.-K. Liaw, G. S. Jhong and C. A. Chen, “Broadband fiber laser”, US paten,聯誠專利事務所內部案號: 2817.4-P-22096 (申請中)
[11] 廖顯奎 、卓立庭、蔡宗憲,“顯示器之光源模組”, 中華民國專利申請,開元專利事務所代辦 Since 2007.06(申請中)
[12] 廖顯奎、黃政凱、王俊容,“利用殘餘雷射功率提升光纖模組性能之方法”中華民國專利-崧鋸專利事務所代辦案號No. P2005-191TW. Since 2006.08(申請中)
[13] 廖顯奎、詹君儀、柯錦山“光信號可重構元件及其塞取方法” 大陸專利實質審查 (20060412申請案號CN03107383.2) 開元專利事務所代辦 Since 2006(申請中)
[14] C.S.Chin, Z.H. Lin, C.C. Chaing, S.K. Liaw, Y. C. Tzeng and S.C. Chen, “Device and method of temperature compensated fiber based components”, US Patent number: 7031570, Issue date: Apr 18, 2006
[15] 廖顯奎、王俊榮、陳宣臣,“光纖雷射泵激光源架構法”, 2005.12, 崧鉅專利事務所代辦(申請中)
[16] 廖顯奎、陳宣臣、柯錦山、劉又瑞,“光纖雷射裝置”中華民國專利 No. I238581, 2005.08.21-2024.03.29
[17] 賴英澤、廖顯奎、林益增,“被動光網路之斷點偵測系統”,中華民國專利No. 200814567, 公告中, 聯誠專利事務所代辦(申請中)
[18] 廖顯奎、鍾國興、陳建安,“寬頻光纖雷射裝置” 中華民國專利申請,No. 200843264, 公告中, 聯誠專利事務所代辦(申請中)
[19] 單秋成、林志豪、江家慶、廖顯奎、曾昱璋、陳宣臣“光纖元件的溫度補償裝置” 大陸專利、CN03266885.6 2004.10.06-2014.10
[20] 廖顯奎、洪志明,“多路由光信號交換與切換系統架構” 中華民國專利、No. 225623. 2004.06.21–2013.06.05
[21] 單秋成、林志豪、江家慶、廖顯奎、曾昱璋、陳宣臣“光纖元件之溫度補償方法” 中華民國專利、No. 201863. 2004.04.21-2022.12.29
[22] 廖顯奎、曾昱璋、吳定豐、楊文彬、江羿凡“功率可調之光衰減裝置”中華民國專利、No. 091134216, 2004.04.01-2022.11.24 (讓與宇東)
[23] 廖顯奎“功率等化的光纖元件”大陸專利、CN2521792, No.523618, 2003.10-2013.10 (讓與宇東)
[24] 廖顯奎、曾弘毅、祁甡、簡碧堯“功率等化多波道光纖雷射陣列”中華民國專利、No.188035, 2002.03.11-2012.05.04 (讓與宇東)
[25] 廖顯奎 宋皇志 “形成功率等化之光纖元件的方法”中華民國專利、No. 158406. 2002.06.11-2021.04.15 (安提亞部分授權)
[26] 廖顯奎“多路由的光信號交換與切換系統”大陸專利、CN01271094.6, 2002.10-2012.10
[27] 廖顯奎、許光裕、祁甡 “在分波多工系統中之兩種光信號交換模組架構”中華民國專利、No.169694. 2001.01.11-2011.01.28
[28] 廖顯奎、江衍旭、廖枝旺“光纖光柵群於多波道傳輸系統之三種增益等化應用架構”中華民國專利、No.132257 2001.05-2018.02
[29] 廖顯奎、許光裕、祁甡 “在分波多任務系統中的兩種光信號交換模塊架構”大陸專利、CN00268237.0 2001.10-2011.10
[30] 廖顯奎、簡碧堯“雙向傳輸功率額定光纖放大器模組”中華民國專利、No.183072, 2001.11.11-2012.05.04
[31] 廖顯奎、廖枝旺、楊弘宇、江衍旭“額定光放大器於色散補償系統之應用架構”中華民國專利No. 145853 1999.04-2009.09
[32] 廖顯奎、廖枝旺、陳建源、楊弘宇“多波道雙向中繼式光放大傳輸系統架構”中華民國專利No. 135959 1998.05-2009.07
[33] 廖顯奎、陳永光、江衍旭、廖枝旺、涂元光“使用摻釤光纖作為摻鉺光纖放大器之增益等化之方法”中華民國專利、No.088304, 1997.06-2007.06 5
Book
[1] Book Chapter, “Fiber Bragg Grating –based Optical Amplifier” in Chapter 9 of “Advanced in Optical Amplifier”, Intech Publisher, Vienna, Austria
[2] 廖顯奎譯 (原著:James N. Downing) “Fiber Optic Communications”, 高立圖書公司 2005.06
Other

Project
Title Total Amount Excution Duration Client
分波多工被動光網路之關鍵技術研究-子計畫三:建構於光纖式濾波、放大與檢測技術之分波多工被動光網路(3/3) 97 - 98 國科會
運用於紅外線光纖雷射之先進摻雜稀土離子半導體光學材料的研製 2,100,000 97 - 100 國科會
分波多工被動光網路之關鍵技術研究-子計畫三:建構於光纖式濾波、放大與檢測技術之分波多工被動光網路(2/3) 96 - 97 國科會
利用晶體光子光纖研製先進光纖雷射 95 - 95 國科會
使用殘餘泵激功率提昇C+L Band光纖放大器特性之研究 95 - 96 國科會
分波多工被動光網路之關鍵技術研究-子計畫三:建構於光纖式濾波、放大與檢測技術之分波多工被動光網路(1/3) 95 - 96 國科會
提升白光發光二極體出光效率之光學設計技術 95 - 96 國科會
教育部光通訊教改計畫(4/4) 95 - 95 教育部
被動光環在都會網路的應用(II)-子計畫二:被動光纖環形網路之光信號塞取多工機的研製與應用(II) 94 - 95 國科會
先進光纖式可調式光衰減器之研製 94 - 95 國科會
被動光環在都會網路的應用(II)-子計畫一:被動光環型網路之測試平台 94 - 95 國科會
被動光環在都會網路之應用(II)-總計畫:被動光環在都會網路之應用 94 - 95 國科會
被動光環在都會網路的應用(II)-子計畫三:被動光環型網路之中央節點的設計與建構(II) 94 - 95 國科會
被動光環在都會網路的應用(II)-子計畫四:被動光環型都會網路之10 Gb/s收發機(II) 94 - 95 國科會
教育部光通訊教改計畫(3/4) 94 - 94 教育部
光纖光柵式多波道光纖感測器之研製 93 - 94 國科會
被動光環在都會網路的應用(I)-子計畫二:被動光纖環形網路之光信號塞取多工機(WADM)的研製與應用(I) 93 - 94 國科會
被動光環在都會網路之應用(I)-總計畫(I) 93 - 94 國科會
以光柵技術製作光纖通信用途之高密度分波多工元件 92 - 93 國科會
拉曼光纖放大器之性能優化與光通信之系統應用 92 - 93 國科會
光學參數可調系統研究 91 - 91 工研院機械所
以光柵技術製作光纖通信用途之高密度分波多工元件(2/3)(91-2622-L-011-001- ) 91 - 92 國科會
以微光學技術製作可調光衰減器 91 - 92 國科會
拉曼光纖放大器研製及其非線性效應之量測分析 91 - 92 國科會
微光柵技術的應用研究 90 - 90 工研院機械所
參加亞太光纖通訊會議及北京光通訊技術訪問團(90-2736-L-011-001- ) 90 - 90 國科會
以光纖光柵製作雙向光信塞取器與光信號交換器:理論探討與研究(89-2215-E-011-015- ) 89 - 90 國科會
以光柵技術製作光纖通信用途之高密度分波多工元件(1/3)(89-2622-L-011-001- ) 89 - 91 國科會

Student
Ph.D
101
FBG-Based Optical Modules: Investigations and Lightwave Applications
YU, YI-LIN
M.S
103
Multi-parameter Measurement and Optical Switch Design for Traffic Safety Sensing Network
SIAO, WUN-HAO
103
Study on Photo-annealing Effect of Super-fluorescent Fiber Source and Its Application in Sagnac Interferometer
LIN, CHIA-JU
103
Experimental Study of RGB LED Visible Light Communication System Based on Micro-Projection Architecture
TENG, CHIANG
103
Three-stage, High-power EYDFA: Investigation and Application
彭昶銘
103
Multi-parameter fiber-grating-based liquid sensors: study and investigation
LAI, YU-CHU
103
Dual-stage, High-power EYDFA: Simulation, Design and Application
Lin, Chia-Wen
103
Beam Expansion of Optical Wireless System: Design, Measurement and Applications
WANG,HUAI-CHING
103
Experimental study of 500 Mb/s high-speed visible light communication system based on RGB LED
Chun-Jui Wu
102
mplementation of Anti-radiation Broadband Light Source and its Real-time Monitoring
Zhong-Yu Lu
102
Novel fiber sensing schemes designed for liquid parameters analyzing
Shih-syuan Hong
102
Design and Application of Lateral Stress Sensors Based on Fiber Bragg Gratings
Guo-Dong Hong
102
Wide-Tuning-Range Fiber Bragg Gratings for C+L Band Fiber Lasers
Chin-Cheng Fan
102
High-capacity Optical Wireless Communications for Access Network and Bridge Backup Router: Design and Study
Yu-min Lin
102
300Mb/s High-Speed LED Visible Light Communication Based on Micro-Projection Architecture
Ming-jen Chien
101
Design of WDM-PON Configurations with Characteristics of Remotely Pumped Amplification and Network Sensing
Shao-Syuan Ji
101
Study on sensing light sources and their applications in fiber sensing parameters measurement
Shing-wen Huang
101
Parameters Design And improvement For Bidirectional High-Speed Optical Wireless Transmission
Jia-jhe Ye
101
Design and Improvement of Uncooled ASE Fiber Sources
Yen-Hung Lu
100
Free Space Optical Communication System Design And Channel Interferences Study
Jyun-yuan Huang
100
Illumination Based LED Visible Light Communication: Design and Investigation
Wei-ting Chen
100
Nearly Single-Longitudinal-Mode Linear-Cavity Tunable Fiber Laser
Wei-chen Hsu
99
Linear-Cavity Tunable Multi-Wavelength Fiber Lasers Using an SOA as Gain Medium
Cheng-Chuan Tsai
99
High-Power Transmissive Liquid Crystal Display Projector Design
Chia-shou Tsai
99
Study of Power-Compensated Bidirectional Fiber-Bragg-Grating-Based Optical Cross Connect
Pei-Shih Tsai
99
160 Gbit/s Optical Wireless Transmission in Bi-directional WDM Configuration
Wan-Chien Lu
99
Investigation of Bi-directional Hybrid Fiber Amplifiers in Recycling-Pumped Mechanism
Yi-Chun Wang
98
Improvement of Light Efficiency and Heat Dissipation of White Light LEDs
Jung-Chi Wang
98
Investigation of Single-Longitudinal-Mode
Shiang Wang
98
Integration of LEDs and Plastic-Optical-Fibers for Automobile Headlamps Design
Fei-jan Mai
98
Investigation of Broadband Double-pass Hybrid Fiber Amplifiers
Hsin-Kai Hung
98
Investigation of C-band Linear-Cavity Tunable Fiber Lasers in Single-Longitudinal-Mode Operation
Kai-hsiang Hsu
98
Light Coupling of LED Plastic Optical Fiber: Design and Application
Chien-yu Chou
97
Simulation Analysis and Optical Design on Backlight Modules
Yu-you Liu
97
Optical Design of High-Power White-Light LEDs for Illumination
Jian-li Huang
97
Study on Multiple-merit Hybrid Fiber
Yu-Sheng Huang
97
The Optimum Investigation and characteristic analysis of L-band Ring-Cavity Erbium-Doped Fiber
Yi-Lin Yu
97
Study of Fiber-Bragg-Grating-Based Optical Cross Connects and Their Application in Optical Transmission Network
Chuen-rong Hung
96
Optimum Study the Back-End Techniques for Light-Emitting Diodes
Yu-hsiu Lin
96
WDM-PON Monitoring and Internet Access for Intelligent Buildings
Chu-Lin Chang
96
The Optimum Investigation of L-band Tunable Linear-Cavity Erbium-Doped Fiber Laser (EDFL)
Chang-Liang Lai
96
An investigation of L-band Fiber Laser
OLIVER SEUNG
96
Optimum Investigation of Characteristics Raman Fiber Amplifier
Ta-Wei Lin
96
Innovative 10Gbps ROSA Packaging
David, Chin-yin Lan
96
Novel Packaging Design of Coaxial Cooled TOSA
Ching-Tsung Wu
96
Patent Analysis and Optimization in Simulation Design for Backlight Modules
Tsung-hsien Tsai
96
WDM-PON Architectures Designs for Intelligent Building
Yao-Sheng Hsieh
95
Research of Monitoring Method based on WDM-PON
Yi-Tseng Lin
95
Investigation of Fiber Laser Based on Fiber Bragg Grating
Guo-sing Jhong
95
Color-mixing, modules design and Optical design of High-Power White-Light LEDs
JIAN-AN CHEN
95
Optimum Investigation of Broadband Erbium-Doped Fiber Amplifiers
Wai-Timg Chen
94
Color-Mixing, Modules Design and Simulation Optimization of High-Power White-Light LEDs
Shih-yi Chang
94
Study on Monitoring-Improved Technologies of Passive Optical Networks (PONs)
Ying-tse Lai
94
Study on Fiber Laser, Fiber Sensing and Monitoring Technologies Based on Fiber Bragg Gratings
Kuan-luen Hung
94
Patent Analysis and Simulation design on TFT LCD - A Study of Brightness Enhancement Film in Backlight Module
Li-Ting Cho
94
Investigation of High-Efficiency Optical Fiber Amplifiers
Yuan-lung Hsiao
94
Study on Fiber Bragg Gratings-Based Bi-directional Optical Add/Drop Multiplexers
Wan-ling Cheng
94
In-Service Monitoring Technique of Optical Networks Including OADM
Chih-ming Teng
93
Reconfigurable Optical Add/Drop Multiplexers With Power Compensation Function
Ming-Hung Chang
93
Investigation of Advanced Optical Fiber Amplifiers
Cheng-kai Huang
93
Investigation and applications: Fiber lasers based on fiber Bragg grating and optical circulator
Chun-Jung Wang
92
光衰減器之研製及應用
賴宜君
92
可重構式光信號塞取多工器之研製
齊泓翔
92
波長可調光纖光柵之研製與應用
陳宣臣
92
C+L band摻鉺光纖放大器的研製
廖協虹
91
温度補償及波長可調光柵之研製及其應用
曾昱璋
91
以光柵元件設計光信號塞取多工機
詹君儀
91
寬頻高增益之拉曼光纖放大器
洪福春
91
分波多工系統用之兩種光纖放大器研製
洪智明
Student's Project
103
光纖感測之量測與分析
張仲傑.許倬芸
101
LED室內可見光通訊之特性量測與分析
許銘哲.李承軒
100
可見光通訊之收發模組研究與傳輸品質測量
賴郁竹
100
混合式之光纖放大器設計與量測
王懷慶
100
無線光通訊之環境因素分析量測與改善
周志衡
100
以發光二極體為光源之光纖檢測設計與量測
劉學平
99
光纖分波多工系統之設計量測與應用
張瑄芳
98
光纖雷射之架構設計及特性量測
盧彥宏
98
光纖放大器應用量測與分析
范錦程
97
Study on Green Light Laser Based on Up- Conversion of Er3+ Doped Fiber
Tzu-yu Chien
95
光交連器之設計與特性分析
周彥辰,劉彥良
95
前瞻光纖雷射之特性量測與設計改良
黃佳宏,陳茂瑞
95
光纖放大器參數優化與設計
張玉勳,張正雄
94
高轉換效率之光纖放大器研製
黃鈺勝,林育賢
94
LED照明技術之專利佈局分析
古仁毅,黃長信
93
我國影像顯示技術之專利佈局與對策分析
周彥戎,林志偉,葉書銘
93
以光學影像立體視覺系統所驅動的徒手控制指示器
林志明
92
混成式光纖放大器之研製
黃漢忠,林志清,謝宏銘
92
機械式光切換器之研製
李靜君,林明立
92
智慧型光纖感測器
蔡富傑,林立凡
91
拉曼光纖放大器之研製
賴英澤,蔡承軒,施志偉
91
光纖光柵用於感測技術之研究
陳涵瑜,鄭婉羚
91
C+L Band光纖放大器之分析與應用
李志鴻,江謝欣,陸奕君
Student's Honor
  2015
林佳儒 中華民國光電學會碩士論文獎
  95
林益增 中國工程司碩士獎學金
  94
張銘宏、王俊容、黃政凱、賴英澤 『多功能光信號塞取多工器(OADM)』教育部大專校院通訊科技專題製作競賽 進入複賽
  93
陳宣臣 『波長可調光纖光柵之研製與應用』,宏碁基金會龍騰碩士論文獎