徐世祥 Shih-Hsiang Hsu

職稱
徐世祥 Shih-Hsiang Hsu
教授兼先進半導體科技研究所所長
學歷
美國馬里蘭大學電機博士
電子郵件
shsu@mail.ntust.edu.tw
辦公室
EE 813-4

Office Hours	2:00 PM - 4:00 PM on Friday or Through E-mail Appointments
電話	0227376399/EXP:0227333141-7932
個人網頁
實驗室	光電半導體實驗室(Photonic Semiconductor Lab)EE504-3&402-2
研究領域	(1) 矽光電半導體 [光達LiDAR、光學同調斷層掃描OCT、共封裝光學CPO、生醫感測Biosensing] (2) 機器學習ML (3) 光纖通訊與感測Fiber Optics/Sensing
開授課程	光電半導體工程, 光電感測技術與應用, 光子學工程, 光子學應用與實務, 光電電磁學, 光電積體電路, 光電元件, 光電應用, 電磁學, 量子概論, 電子產品設計及生產, 物理

現職及經歷

2016/8 ~ Now	教授 (國立臺灣科技大學電子工程系)
2010/8 ~ 2016/7	副教授 (國立臺灣科技大學電子工程系)
2006/8 ~ 2010/7	助理教授 (國立臺灣科技大學電子工程系)
2005/10 ~ 2006/7	資深光電工程師 (Sabeus Incorporated in California, U.S.A.)
2002/7 ~ 2005/10	SOI 研發部處長 (APIC Corporation in California, U.S.A.)
2000/7 ~ 2002/7	資深光電設計研究員 (Kotura Incorporated in California, U.S.A.)
1998/7 ~ 2000/7	資深光電研發員 (Corning Incorporated in New York, U.S.A.)

重要研究成果

[1]
[2]	徐世祥_中文_12152009

榮譽及獎勵

2011	國立台灣科技大學優良輔導老師獎
2011	國立台灣科技大學教學優良獎

研究成果

期刊論文

[1]	T.-Q. Liao, T.-C. Chang, J.-J. Kang, and Shih-Hsiang Hsu*, "Distance and velocity characterizations through sampling rate-limited main interferometer in a silicon platform," IEEE Photonics Journal, 16(3), p. 6802106, 2024.
[2]	H. Lai, T.-N. Kuo, J.-Y. Xu, S. H. Hsu, and Y.-C. Hsu, "Sensitivity enhancement of group refractive index biosensor through ring-down interferograms of microring resonator, Micromachines, 13, 922, 2022.
[3]	H.-Y. Zheng, B.-L. Chen, H.-Y. Lu, S. H. Hsu, and M. Takabayashi, "Bidirectional coupler study for chip-based spectral-domain optical coherence tomography," Micromachines, 13, 373, 2022.
[4]	H.-Y. Chi, W. Hong, H. Lai, S. H. Hsu, and C.-C. Chang, "Silicon ribbon-based dual-beam optical phased array with low crosstalk and large FoV," Applied Sciences, 12, 505, 2021.
[5]	B. Y. B. Widhianto, Y.-T. Lu, W.-C. Chang, and S. H. Hsu*, "Broadband coupler manipulation through particle swarm optimization for arrayed waveguide grating based optical coherence tomography," IEEE Photonics Journal, 13(1), p. 6600613, 2021.
[6]	R.-A. Zhang, T.-S. Lin, W.-T. Liu, S. H. Hsu, and C.-C. Chang, "Grating lobe-free beam steering through optical phase array using phase-compensated two index-mismatched silicon wires-based emitters," Applied Sciences, 10, 1225, 2020.
[7]	Y.-T. Lu, B. Y. B. Widhianto, S. H. Hsu, and C.-C. Chang, "Tandem Mach Zehnder directional coupler design and simulation on silicon platform for optical coherence tomography applications," Sensors, 20, 1054, 2020.
[8]	S. H. Hsu, K.-W. Chuang, C.-S. Chen, C.-Y. Lin, and C.-C. Chang*, "Two interrogated FBG spectral linewidth for strain sensing through correlation," Sensors, 17(12), 2837, 2017.
[9]	S. H. Hsu, C.-Y. Lin, C.-T. Tuan, and C.-C. Chang, “MicroRNA biosensing through spectral interferometry-based surface plasmon resonance using telecommunication wavelength,” Electronics Letters, 52(13), pp. 1096-1098, 2016. [SCI]
[10]	S. H. Hsu, J.-H. Lin, D.-Z. Tsai, H.-S. Tsai, Z.-H. Jian, and H.-F. Liu*, “MicroRNA biosensing using telecommunication wavelength-interrogated waveguide-coupled surface plasmon resonance,” IEEE Sensors Journal, 16(9), p. 2890-2891, 2016. [SCI]
[11]	S. H. Hsu*, S.-C. Hung, Y.-K. Chen and Z.-H. Jian, "Surface plasmon resonator using high sensitive resonance telecommunication wavelengths for DNA sensors of Mycobacterium tuberculosis with thiol-modified probes," Sensors, 15, pp. 331-340, 2015. [SCI]
[12]	S. H. Hsu*, Y. Chung, C.-M. Wang, and Y.-C. Yang, "Extinction Ratio and Wavelength Flatness for Imbalanced Mach-Zehnder Interferometer in Silicon-on-Insulator," Microwave and Optical Technology Letters, 56(12), pp. 2950-2952, 2014. [SCI]
[13]	S. H. Hsu, Y.-Y. Lin, S.-H. Lu, I-F. Tsai, Y.-T. Lu, H.-T. Ho*, "Mycobacterium tuberculosis DNA detection using surface plasmon resonance modulated by telecommunication wavelength," Sensors, 14, pp. 458-467, 2014. [SCI]
[14]	S. H. Hsu, Y.-C. Yang, Y.-H. Su, S.-M. Wang, S.-A. Huang, C.-Y. Lin*,"Biosensing using microring resonator interferogram," Sensors, 14, pp. 1184-1194, 2014. [SCI]
[15]	S. H. Hsu, Y.-C. Yang, C.-Y. Tsou,C.-T. Yang, S.-M. Wang, and Y.-S. Lai*, "Microwave phase shifter with 25-GHz dense wavelength division multiplexing channel spacing tuning using multimode interferometer-coupled microring resonator," Optical Engineering, 52(10), p.100501, 2013. [SCI]
[16]	C.-Y. Tsou, S. H. Hsu*, C.-M. Wang, and S.-C. Tseng, "12.5-Gb/s highly flexible 180 degrees polymer waveguide on optical and electronic printed circuit board," Microwave and Optical Technology Letters, 55(9), pp. 1999-2003, 2013. [SCI]
[17]	S. H. Hsu, C.-Y. Tsou, M.-S. Hsieh, and C.-Y. Lin*, “Low-coherence interferometric fiber sensor with improved resolution using stepper motor assisted optical ruler,” Optical Fiber Technology, 19, pp. 223-226, 2013. [SCI]
[18]	S. H. Hsu, "SOI modal dispersion using Mach-Zehnder interferometer for mode-division multiplexing," Electronics Letters, 48(14), pp. 864-866, 2012. [SCI]
[19]	S. H. Hsu* and H.-Z. You, "30-ps Impulse Response Monolithically Waveguide Coupled Photodetector for High-speed Performance Monitoring Applications", Optics Communications, 284(2), pp. 590-593, 2011. [SCI]
[20]	S. H. Hsu, "Reflectively Coupled Waveguide Photodetector for High Speed Optical Interconnection", Review Paper in Sensors, 10(12), pp. 10863-10875, 2010. [SCI]
[21]	S. H. Hsu*, Y. J. Chen, and H. Z. You, "10 GHz High-Speed Optical Interconnection", Electronics Letters, 46(2), pp. 149-150, 2010. [SCI, EI]
[22]	S. H. Hsu*, Y. J. Chen, and H. Z. You, “Waveguide Coupled Photodiode Using Reflector and Metal Coplanar Waveguide for Optical Triplexing Applications”, Optics Express, 18(9), pp. 9303-9313, 2010. [SCI, EI]
[23]	S. H. Hsu, "Optical Waveguide Tap with Low Polarization Dependence and Flattened Wavelength Using Mach-Zehnder Directional Coupler", Applied Optics, 49(13), pp. 2434-2440, 2010. [SCI, EI]
[24]	S. H. Hsu, “Signal Power Tapped with Low Polarization Dependence and Insensitive Wavelength on SOI Platforms”, Journal of the Optical Society of America B, 27(5), pp. 941-947, 2010. [SCI, EI]
[25]	S. H. Hsu, “Polarization Dependent Loss Compensation on Silicon-wire Waveguide Tap by Complex Refractive Index of Metals”, Optics Letters, 34(12), pp. 1798-1800, 2009. [SCI, EI]
[26]	S. H. Hsu* and Y.-L. Tsai, “Tapping Signal Power on 12 um-Thick SOI Optical Waveguide for Performance Monitoring”, Electronics Letters, 45(3), pp. 161-163, 2009. [SCI, EI]
[27]	S. H. Hsu, “A 5-um-thick SOI Waveguide with Low Birefringence and Low Roughness and Optical Interconnection using High Numerical Aperture Fiber”, IEEE Photonics Technology Letters, 20(12), pp. 1003-1005, 2008. [SCI, EI]
[28]	S. H. Hsu*, and J. Chan, “Photonic Bus with Loop Signal Routing and Multi-Channel Wavelength Selection on a Single Silicon-on-Insulator Platform”, Optics Letters, 31(14), pp. 2142 – 2144, 2006. [SCI, EI]
[29]	S. H. Hsu, O. King, F. G. Johnson, J. V. Hryniewicz, Y. J. Chen, and D. R. Stone, “InGaAs p-i-n Detector Array Integrated with AlGaAs/GaAs Grating Demultiplexer by Total Internal Reflector”, Electronics Letters, 35(15), pp. 1248 – 1249, 1999. [SCI, EI]
[30]	J. V. Hryniewicz, Y. J. Chen, S. H. Hsu, C. H. Lee, and G. A. Porkolab, “Ultra-high Vacuum Chemically Assisted Ion Beam System with a Three Grid Ion Source”, Journal Vacuum Science Technology A, 15(3), May/Jun, pp. 616 – 621, 1997. [SCI]
[31]	S. H. Hsu, F. G. Johnson, S. A. Tabatabaei, S. Agarwala, J. V. Hryniewicz, F. J. Towner, Y. J. Chen, and D.R. Stone, “InGaAs/InP p-i-n Photodiode Arrays on AlGaAs/GaAs Waveguide Films by Solid Source Molecular Beam Epitaxy”, Electronics Letters, 33(13), pp. 1171 – 1173, 1997. [SCI, EI]
[32]	G. A. Porkolab, S. H. Hsu, et al., “Etch-mask of pyrolytic -photoresist thin-film for self-aligned fabrication of smooth and deep faceted three-dimensional microstructures”, Journal Vacuum Science Technology B, 14(6), pp. 3650 – 3653, 1996. [SCI]

會議論文

[1]	Min-Yang Hung, Jia-Yan Huang, and Shih-Hsiang Hsu*, "Silicon-based swept-source optical coherence tomography through low chromatic dispersion resampling," CLEO, p. 4240121, Long Beach, California, USA, May 2025.
[2]	Ying-Kai Chen, Pei-Cheng Tsai, Yu-Chia Ling, and Shih-Hsiang Hsu*, "Cyclic arrayed waveguide grating in spectral domain optical coherence tomography," CLEO, p. 4240433, Long Beach, California, USA, May 2025.
[3]	Jia-Yan Huang, Cheng-Chi Hsiao, Shih-Hsiang Hsu*, "Frequency-modulated continuous wave metrology using delayed Mach-Zehnder interferometer resampling," CLEO, p. 4238364, Long Beach, California, USA, May 2025.
[4]	Jia-Yan Huang, Cheng-Chi Hsiao, Shih-Hsiang Hsu*, " Short optical-path difference-based auxiliary interferometer for LiDAR chip in timing jitter correction," CLEO, p. 4240478, Long Beach, California, USA, May 2025.
[5]	Jia-Yan Huang, Cheng-Chi Hsiao, Ming-Yang Hung, and Shih-Hsiang Hsu*, "LiDAR chip-based ranging and velocity through timing jitter correction," OFC, p. M3J, San Francisco, California, USA, March 2025.
[6]	Chia-Yu Wu, Ying-Kai Chen, and Shih-Hsiang Hsu*, "Silicon photonic swept-source optical coherence tomography resampling," CLEO, p. ATh3B.7, Charlotte, North Carolina, USA, May, 2024.
[7]	Ting-Qing Liao, Ting-Chia Chang, and Shih-Hsiang Hsu*, "Sample rate-limited distance and velocity characterizations in a silicon platform," CLEO, p. AF3I.7, Charlotte, North Carolina, USA, May, 2024.
[8]	Jia-Yi Xu, Zhi-Ping Guan, Jhih-Jia Kang, and Shih-Hsiang Hsu*, "Velocity measurement through Hilbert phase subdivision," CLEO, p. AW3K.7, San Jose, California, USA, May, 2023.
[9]	Zhi-Ping Guan, Jhih-Jia Kang, Jia-Yi Xu, and Shih-Hsiang Hsu," FMCW LiDAR distance measurement through phase error correction," CLEO p. AW4I.4, San Jose, California, USA, May, 2023.
[10]	Yu-Hsiang Chen, Cheng-Siou Wu, Ming-Hsuan Chen, and Shih-Hsiang Hsu, "Chip-based auxiliary interferometer to compensate optical coherence tomography phase errors," CLEO, p. AM3Q.3, San Jose, California, USA, May, 2023.
[11]	Jhih-Jia Kang and Shih-Hsiang Hsu*, “Phase error correction through digital resampling for LiDAR applications,” CLEO PR, p. C000754, Virtual Conference in Japan, August, 2022.
[12]	Bo-Liang Chen, Hong-Yan Zheng, and Shih-Hsiang Hsu*, “Noise reduction in silicon-based spectral-domain optical coherence tomography,” OECC, p. C000274, Virtual Conference in Japan, July, 2022.
[13]	Hsuan Lai, Tzu-Ning Kuo, Jia-Yi Xu, and Shih-Hsiang Hsu*, “Group index biosensor through ring-down interferograms,” Optical Sensor and Sensing Congress, p. SM3E.6, Virtual Conference in USA, July, 2022.
[14]	Shih-Hsiang Hsu*, H.-Y. Lu, M.-W. Lai, H.-Y. Zheng, “Process insensitive broadband coupler for optical coherence tomography application,” IEEE Photonics Conference, p. MA2.5, Virtual Conference in USA, October, 2021.
[15]	Shih-Hsiang Hsu*, H.-Y. Lu, M.-W. Lai, H.-Y. Zheng, “Process insensitive broadband coupler for optical coherence tomography application,” IEEE Photonics Conference, p. MA2.5, Virtual Conference in USA, October, 2021.
[16]	Shih-Hsiang Hsu*, H.-Y. Lu, M.-W. Lai, H.-Y. Zheng, “Process insensitive broadband coupler for optical coherence tomography application,” IEEE Photonics Conference, p. MA2.5, Virtual Conference in USA, October, 2021.
[17]	B. Y. B. Widhianto and Shih-Hsiang Hsu*, “Bidirectional broadband coupler for on-chip interferometer based OCT,” CLEO, p. ATh4F.3, Virtual Conference in USA, May, 2021.
[18]	Yi-Ting Lu, Benedictus Yohanes Bagus Widhianto, Shih-Hsiang Hsu*, "Tandem Mach-Zehnder based directional coupler to enhance signal-to-noise ratio of optical coherence tomography,” CLEO, p. AM1I.6, San Jose, California, USA, 2020.
[19]	Che-Hao You, Yuan-Chun Hsu, Ding-Siang Hong, Meng-Syuan Jian, Shih-Hsiang Hsu*, "Surface plasma resonance biosensing through high coherence laser source,” CLEO, p. ATh3K.6, San Jose, California, USA, 2020.
[20]	S. H. Hsu*, Y.-H. Tseng, C.-T. Lin, and H.-S. Chen, “Optical splitter with wavelength insensitive power and phase through phase compensated Mach-Zehnder directional coupler,” OECC, p. ME2-5, Fukuoka, Japan, June, 2019.
[21]	S. H. Hsu*, F.-C. Chien, and C.-Y. Hsu, “Microring resonator biosensor sensitivity enhancement through ring-down interferograms,” CLEO, p. JTh2A.97, San Jose, California, USA, May, 2019.
[22]	S. H. Hsu*, H.-Y. Hsu, C.-H. Chen, and M.-S. Jian, "Surface plasmon resonator biosensor spatial phase sensitivity enhancement through optical fiber low coherence interferometry," CLEO, p. JW2A.176, San Jose, California, USA, May, 2018.
[23]	S. H. Hsu, W.-D. Lin, and Y.-C. Chung, "Phase Effect on Silicon-wire based Broadband Directional Coupler using Mach-Zehnder Structure for CWDM Applications," MOC, Tokyo, Japan, p. P-67, Nov. 19-22, 2017.
[24]	S. H. Hsu, K.-W. Chuang, and C.-S. Chen, "Two FBG Spectral Convolution for Strain Sensing," CLEO/Pacific Rim, p. T07_1049/27F2-2, Aug. 24-28, 2015.
[25]	S. H. Hsu, K.-W. Chuang, and C.-S. Chen, "Phase Characteristics of Broadband Mach-Zehnder Directional Coupler with Quasi-Decoupled Hybrid Plasmon," CLEO/Pacific Rim, p. T10_1041/25I1-4, Aug. 24-28, 2015.
[26]	S. H. Hsu, Y.-C. Yang, and Y.-H. Su, "Silicon wire refractive index characterization using microring resonator effective length from interferograms," CLEO, p. SM2H.2 , San Jose, California, USA, 2014. [EI]
[27]	S. H. Hsu and Y.-C. Yang, "Fiber strain sensor using spectral linewidth of FBG reflection through optical filter," CLEO, p. JTh2A.8, San Jose, California, USA, 2014. [EI]
[28]	S. H. Hsu, J.-C. Hsu, and S.-C. Chen, "Interferometric fiber strain sensor using fiber Bragg grating based optical ruler," CLEO, p. JW2A.72, San Jose, California, USA, 2013. [EI]
[29]	S. H. Hsu et al., "Microwave phase shifter with 25-GHz DWDM channel spacing tuning on MMI coupled microring resonator," Asia-Pacific Microwave Photonics Conference, p. A11_1017, Gwangju, Korea, 2013. [EI]
[30]	S. H. Hsu et al., "SOI DQPSK demodulator using Mach-Zehnder directional coupler," Asia-Pacific Microwave Photonics Conference, p. A02_1013, Gwangju, Korea, 2013. [EI]
[31]	S. H. Hsu, "Fiber sensor and siliconwire biosensor using interferometry technology", Invited talk in International Conference on Photonics, Penang, Malaysia, Oct. 1-3, 2012. [EI]
[32]	C.-Y. Tsou, J.-C. Hsu, S.-C. Tseng, and S. H. Hsu, "Fiber-optic interferometry strain sensor with optical ruler assisted stepper motor", OECC, p. SC3_1070, Busan, Korea, 2012. [EI]
[33]	S. H. Hsu and S.-C. Tseng, "SOI modal dispersion for on-chip mode-division multiplexing", CLEO, p. JW4A.8, San Jose, California, USA, 2012. [EI]
[34]	S. H. Hsu, "High extinction ratio and broad band DQPSK demodulation on silicon-on-insulator platform", accepted to be presented in IEEE International Topical Meetings on Microwave Photonics (MWP), Singapore, 2011. [EI]
[35]	T.-J. Lu, S.-C. Tseng, and S. H. Hsu, "Stress-induced modal dispersion on SOI", OECC, p. 7E2_5, Kaohsiung, Taiwan, 2011. [EI]
[36]	S. H. Hsu, S.-C. Tseng, and H.-Z. You, “Birefringence Characterization on SOI Waveguide using Optical Low Coherence Interferometry”, 7th International Conference on Group IV Photonics, Beijing, China, p. P2-9, September, 2010. [EI]
[37]	S. H. Hsu, "Polarization Dependent Loss Study on Silicon-wire Waveguide Tap for Optical Performance Monitoring", OFC/NFOEC, P. JWA13, 2009. [EI]
[38]	S. H. Hsu, “Tapping signal power with low polarization dependence by 12-um-thick SOI waveguides”, CLEO/Pacific Rim Conference, p. WG1-5, Shanghai, China, 2009. [EI]
[39]	S. H. Hsu, "Wavelength-Insensitive Tap Waveguide Usiang Mach-Zehnder Structures on Silicon-on-insulator Platform", OFC/NFOEC, p. JWA36, 2008. [EI]
[40]	S. H. Hsu, "Silicon-on-insulaor Waveguide with Low Birefringence and Smooth Lithography Roughness for a Simple Optical Interconnection", WFOPC2007, P. W4B-3, December 5-7, 2007. [EI]
[41]	S. H. Hsu, “Low Polarization Dependent Loss for Waveguide Tap Monitoring”, CLEO/Pacific Rim 2007, p. TuD4-1, Aug. 27-31, 2007. [EI]
[42]	S. H. Hsu, “A Simple Optical Interconnection Integrated with Low Birefringence Silicon-on-insulator Waveguide”, CLEO/Pacific Rim 2007, p. FA1-3, Aug. 27-31, 2007. [EI]
[43]	S. H. Hsu, “Improved Reflective Signal-to-Noise Ratio to Stabilize Laser Frequency using Pound-Drever-Hall Technique with Zerodur Etalon”, CLEO/Pacific Rim 2007, p. WP_47, Aug. 27-31, 2007. [EI]
[44]	S. H. Hsu, “Low Birefringence Silicon-on-insulator Waveguide and Its Optical Interconnection using High Numerical Aperture Fiber”, OECC/IOOC, p. 336, 2007. [EI]
[45]	S. H. Hsu, C. Panja, M. Lee, P. Dong, and J. Chan, “Photonic Bus with Multi-Channel Selection on a SOI Chip”, Optical Fiber Communication Conference in 2005, OFC/NFOEC, Anaheim, CA, p. OME35, 2005. [EI]
[46]	S. H. Hsu, S. A. Tabatabaei, S. Agarwala, F. G. Johnson, J. V. Hryniewicz, P. Cho, Y. J. Chen, and D. R. Stone, “InGaAs/InP/AlGaAs/GaAs p-i-n photodetector array with low capacitance air-bridge coplanar waveguides and its monolithic WDM applications”, Optical Fiber Communication Conference, San Jose, California, p. WM9, 1998. [EI]
[47]	S. H. Hsu et al. “InGaAs p-i-n photodiodes on AlGaAs/GaAs waveguides and monolithic integration applications”, CLEO/QELS, Integration Devices and Optical Materials, Baltimore, Maryland, p. CThX1, 1997. [EI]
[48]	S. H. Hsu, F. G. Johnson, S. A. Tabatabaei, S. Agarwala, J. V. Hryniewicz, F. J. Towner, Y. J. Chen, and D. R. Stone, “InGaAs/InP p-i-n heterostructure photodiode arrays on AlGaAs/GaAs waveguide films by solid source molecular beam epitaxy”, International Symposium on Compound Semiconductors, San Diego, California, p. WF24, 1997. [EI]
[49]	S. A. Tabatabaei, G. A. Porkolab, S. Agarwala, F. G. Johnson, S. A. Merritt, S. H. Hsu, and et al., “Processing of high-speed InGaAs diodes”, accepted by Materials Research Society, San Francisco, 1997. [EI]
[50]	S. H. Hsu, J. V. Hryniewicz, M. Wu, Y. P. Ho, G. A. Porkolab, and Y.J. Chen, “External cavity laser array with monolithically integrated glass waveguide and Rowland circle grating for WDM applications”, LEOS Summer Topic Meetings, WDM Technology, p. MC2, 1996. [EI]

專利

[1]	徐世祥 and 徐榕辰, "光干涉系統," Republic of China I482952, May. 1, 2015.
[2]	徐世祥, "光濾波器光頻譜線寬感測的應用方法," Republic of China I467158, Jan. 1, 2015.
[3]	徐世祥, "光電調製器及其製造方法," Republic of China I384311, Feb. 1, 2013.
[4]	徐世祥, "Electro-optical modulator and a method for manufacturing the same", United States Patent 7,526,146, issued on April 28, 2009.
[5]	S. H. Hsu, D. Feng, C. C. Kung, X. Yin, and G. Coroy, ”United States Patent 6,885,795, “Waveguide tap monitor”, issued on April 26, 2005.

著作

其他

研究成果

研究計畫

計畫名稱	計畫總額	執行始於	執行結束	委託單位
高精準光通訊波長調制之結核桿菌表面電漿共振生物感測器	600,000	10301	10312	馬偕/台科
表面電漿子干涉效應之矽線波導生物光電感測	570,000	10201	10212	馬偕/台科
級聯干涉與共振器線寬之高靈敏矽線波導生醫光電感測	500,000	10103	10202	北醫/台科
高傳輸模組整合製程技術開發於軟硬複合板	500,000	10102	10111	華通電腦股份有限公司
絕緣層上覆矽平台的色散與光能量之效能監測	2,698,000	10008	10307	國科會
矽線波導生物晶片與其靈敏相位量測在生醫感測的應用	500,000	10001	10012	北醫/台科
絕緣層上覆矽平台的三訊耦合器與差分四相位鍵移延遲干涉偵測器技術在光纖到家網路的應用	690,000	9908	10010	國科會
矽光電從低雙折射效應商業應用至微小極高精密度光電積體電路的研發	2,284,000	9708	9907	國科會
高度積成矽光電科技在單一絕緣層上覆矽平台的研發	716,000	9608	9707	國科會
矽光電技術的研發在光路由及內部光路連接的光通訊應用	743,000	9601	9610	國科會

指導學生

博士生

學年	論文題目	學生

碩士生

學年	論文題目	學生
100	光環型共振腔之干涉式生醫感測	蘇昱豪
100	絕緣層覆矽光環形共振腔於微波相位研究	楊鈞婷
100	矽基與矽鍺基發光、信號驅動以及檢光積體電路之設計與實現	陳柏安
100	矽基互補金氧半發光與檢光積體電路設計與實現	陳昱安
100	干涉式色散監測靈敏度研究	陳彥伯
100	馬克-詹德方向耦合器研究	張育維
100	直調式可調雙波長環型光纖雷射之研製與於注入FP-LD之應用	時國昇
100	光纖感測器於微應變之研究與應用	徐榕辰
100	垂直共振腔面射型雷射與法布里比洛雷射二極體預燒試驗研究	洪昱全
100	電吸收調變器於光電與電光轉換應用之研究	邱騰輝
100	低成本法布里-比洛雷射二極體光注入自動鎖模監控系統研究	林晁磊
100	矽基與矽鍺基光通訊與光互連積體電路設計及實現	林柏宏
99	次微米矽線波導色散與雙折射效應之分析	陸則仁
99	馬克-詹德生醫感測干涉儀	陳玨宇
99	DPSK光解調變器之研究	黃信誠
99	微環型共振腔於生醫感測器之應用	葉子豪
98	次微米矽線波導光調制器之研製	甘碩堯
98	矽線波導耦光效率之研究	林奕良
98	低損耗矽線光波導製程研發與量測	陳俊良
98	絕緣層上覆矽光波導色散與雙折射效應之研究	曾聖傑
97	矽線波導在設計與製程方面的研究	劉凱文
97	單一絕緣層覆矽基板上之多模干涉與方向耦合功能為主的分光功率器	蔡祐立
97	光學低同調干涉技術系統的建構與應用	游輝智
96	相容互補金屬氧化半導體製程用於矽光電元件技術之研發	黃浚銘

指導專題

學年	專題題目	學生
95	可調光衰減器在矽波導上的應用	薛凱元及余晨豪
95	矽波導的設計與測量	吳健瑋及麥樹成
95	矽光電研究與應用	黃彥翔及陳俊良

特殊榮譽

年份	事蹟
2010	指導黃浚銘(Chun-Min Huang)之碩士論文獲得德國LAP 出版社 (http://www.lap-publishing.com/)在學術研究論文領域的發表; ISBN 978-3-8383-0512- 7
2007	指導碩士生黃浚銘與沈東翰獲得OPT2007學生壁報論文獎