Your browser does not support JavaScript!
光電工程系
DEPARTMENT OF ELECTRO-OPTICAL ENGINEERING NATIONAL TAIPEI UNIVERSITY OF TECHNOLOGY
網站地圖
首頁 > 教師資料 > 李穎玟
李穎玟

 

實驗室電話: (02)27712171 ext.4627、4697

傳真: (02)87733216

實驗室位置: 億光 R928

E-mail: ywlee@ntut.edu.tw 

實驗室網頁:光纖與雷射光學實驗室

 
李穎玟 副教授 in electro-optical engineering

實驗室主持人

李穎玟博士於2000年取得國立清華大學電機工程碩士,並於2008年取得美國史丹佛大學應用物理博士。李博士擁有多年的光學研究經驗,其主要專長為雷射物理、光纖光學以及非線性光學。李博士的博士論文研究是研發新型的Yb3+-doped Phosphate光纖雷射。2008至2010年間,她加入美國OFS Labs.(前身為Bell Labs的光纖光學部門)從事軍事用高功率全光纖雷射及拉曼雷射系統的研發。回台後,李博士在國立台灣大學從事脈衝式光纖雷射激發電漿以產生EUV光源的博後研究,並於2012年,加入本校光電系及建立此實驗室。

實驗室簡介

            未來,實驗室的研究主軸將放在新型光纖雷射的研發、高功率光纖元件之研製、光纖之非

            線性效應及材料特性研究、光纖雷射在生醫、材料加工、環境偵測。

研究領域

 雷射工程與物理, 光纖光學元件, 非線性光學元件及特殊光學材料

研究計畫

中紅外鎖模光纖雷射與超連續光譜光源之研發  (國科會) 2012/7-2015/7

光纖雷射耐受度、非線性、光孤子或訊號變形之分析與研究  (工業技術研究院)  2014/1-2014/12

脈衝光纖雷射之波長與脈衝波型轉換與變形之分析與研究  (工業技術研究院)  2015/1-2015/12

特殊獎項

國立台北科技大學 電資學院 103年度 教學優良獎 

國立台北科技大學 電資學院 104年度 傑出研究獎

國立台北科技大學 電資學院 105年度 研究躍升獎

最高學歷
美國史丹佛大學(Stanford University, USA)  應用物理博士
現任與經歷

2008-2010   OFS Lab. USA                                              研究員

2011-2012   國立台灣大學光電工程所                              博士後研究員

2012-2016   國立台北科技大學光電工程系                       助理教授

2017-           國立台北科技大學光電工程系                       副教授

期刊論文

1. Y. W. Lee*,  J. S. Chang, S. Pas, A. Dher, M. Pal, M. C. Paul, J. T. Lin, and Y. W. Jany. "Er3+-doped nano-eryineered yttria stabilized zircoria-alumino silicate fiber for efficient CW and mode-locked laser operation ", IEEE Photonics Journal,vol.18,no.4, pp. 1-13, (2016).

2. Y. L. Yu, S. K. Liaw, and Y. W. Lee, "Eye-diagram and Q factor evaluation of fiber ring laser in lightwave transimission", Optical Fiber Technology, vol. 31, pp. 55-66, (2016).

3. Y. W. Lee, C. M. Chen, C. W. Huang, S. K. Chen, and J. R. Jiang, "Passively Q-switched Er3+-doped fiber lasers using colloidal PbS quantum dot saturable abosorber", Optics Express vol.24, no.10, pp. 10675-10681, (2016).

4 .S. K. Liaw, Y. W. Lee*, H. W. Huang, and W. F. Wu,“Multi-wavelength linear-cavity SOA-based laser array design for multi-parameter and long-haul sensing”, IEEE Sensors Journal, vol.15,no.6, pp. 3353-3358, (2015).

5.J. H. Lin, B. C. Lai, and Y.W. Lee,“High energy rectangular pulse generated in a low repetition rate all normal-dispersion Yb3+-doped fiber laser ”, Laser Physics, vol.25, no.4, 045101, (2015).

6.Y. W. Lee*, H. Y. Ling, Y. H. Lin, and S.Jiang,“Heavily Tm3+-doped silicate fiber with high gain per unit length”,  

Optical Materials Express, vol.5, no.3 pp.549-557,(2015).

7. J. Geng, Q. Wang, Y. W. Lee, and S. Jiang, “Development of eye-safe fiber lasers near 2 μm”, IEEE Journal of Selected Topics in Quantum Electronics, vol.20, no.5, 904011, (2014).

8. J. H. Lin, Y. W. Lee*, T. C. Lin, B. C. Lai, M. Pal, S. Das, A. Dhar, and M. C. Paul, “Near-infrared supercontinnum generation in single-mode nonlinear Yb3+-doped fiber amplifier”,  Optics Express, vol.22, no.13, pp. 16130-16138, (2014).[Selected for publication in Virtual Journal for Biomedical Optics,vol. 9, no.8.]

9. C. L. Chang, P. Y. Lai, Y. Y. Li, Y. P. Lai, C. W. Huang, S. H. Chen, Y. W. Lee and S. L. Huang, “Parasitic stimulated amplification in high-peak-power and diode-seeded nanosecond fiber amplifiers”, IEEE Photonics Journal, vol.6, no.3, 1500809, (2014).

10. Y. W. Lee*, H. W. Chien, C. H. Cho, J. Z. Chen, J. S. Chang, and S. Jiang, “Heavily Tm3+-doped silicate fiber for high-gain fiber amplifiers” , Fibers, vol.1, no.3, pp. 82-92, (2013). (Invited)

11. Y. W. Lee*, M. J. F. Digonnet, S. Sinha, K. E. Urbanek, R. L. Byer, and S. Jiang, “High-power Yb3+- doped phosphate fiber laser sources”, IEEE Journal of Selected Topics in Quantum Electronics, vol.15, no.1, pp. 93-102, (2009).

12. Y. W. Lee*, M. J. F. Digonnet, R. L. Byer, and S. Jiang, “Measurement of high photodarkening  resistance in heavily doped phosphate fibers”, Electronics Letters, vol.44, no.1, pp. 14-16, (2008).

13. S. Sinha, D. S. Hum, K. E. Urbanek, Y. W. Lee, M. J. F. Digonnet, M.M. Fejer, and R. L. Byer, “Room-Temperature Stable Generation of 19 Watts of Single-Frequency 532-nm Radiation in a Periodically Poled Lithium Tantalate Crystal”, IEEE Journal of Lightwave Technology, vol.26, no.24, pp. 3866-3871, (2008).

14. Y. W. Lee*, S. Sinha, M. J. F. Digonnet, R. L. Byer, and S. Jiang, “20-W single-mode Yb3+-doped phosphate fiber laser”, Optics Letters, vol.31, no.22, pp. 3255-3257, (2006).

[Also reported in Laser focus world December 2006 issue and Photonics Spectra January 2007 issue]

15. Y. W. Lee, F .C. Fan, B.Y. Gu, B.Z. Dong, M.H. Chou, and Y.C. Huang, “Nonlinear multiwavelength   conversion based on an aperiodic optical superlattice in lithium niobate”, Optics Letters, vol.27, no.24, pp. 2191-3, (2002).

研討會論文

1. Y. W. Lee*, J. S. Chang, S. Das, A. Dhar, M. Pal, and M. C. Paul, "Efficient Er3+-doped Fiber Laser Based on Nano-engineered Yttria Stabilized Zirconia Alumino Silicate Fiber", CLEO: SM2Q. 7, San Jose, CA (2016), oral.

2. Y.W. Lee*, J.S. Chang, S. K. Liaw, and W. F. Wu, “Experimental demonstration of L band single longitude mode tunable fiber laser”Next-Generation Electronics (ISNE), (2015) International Symposium on, 1-3.

3. Y.W. Lee*, Y. M. Peng, D. Y. Jheng, S.L. Huang, S.K. Chen, S Jiang, “Measurement of photodarkening resistance in heavily Yb 3+-doped silica and silicate fibers” Next-Generation Electronics (ISNE), (2015) International Symposium on, 1-3.

4. Y. W. Lee*, C. H. Cho and H. W. Tseng,and  S. Jiang, “Tm3+-doped silicate fiber amplifier with gain per unit length of 3.17 dB/cm”,  Advanced Solid State lasers (ASSL),oral Shanghai, China, (2014).

5. K. C. Liao, J. H. Lin and Y. W. Lee, “Cascaded raman scattering by Q-switched and mode-locked pulses through Yb3+-doped fiber laser amplifier”, JSAP-OSA joint  Symposia,oral Hokkaido, Japan,  (2014).  

6. S. K. Liaw,Y. W. Lee and W. F. Wu, “Long-range multiwavelength sensing using semiconductor optical amplifier-based fiber laser”,International Symposium on Next-Generation Electronics (ISNE), Tao-Yuan, Taiwan, (2014).

7. S. L. Lin, Y. W. Lee*, K. Y. Hsu, C. W. Huang,and S. L. Huang, “Design of resonantly side-pumped 1645-nm Er:YAG crystal fiber lasers with grating couplers”, CLEO-PR&OECC/PS 2013,oral Kyoto, Japan, (2013)

8. K. Y. Hsu, D. Y. Jheng, S. C. Wang, S.L. Huang, Y. W. Lee, P. S. Yeh,and M. Dubinskii, “Toward single-mode crystalline fiber laser and amplifier”, CLEO-PR&OECC/PS 20, Kyoto, Japan, (2013)

9. S. L. Lin, Y. W. Lee*, C. W. Huang, K. Y. Hsu,and S. L. Huang, “Design of grating coupler for resonantly side-pumped 1645-nm Er:YAG crystal fiber laser”,Optics & Photonics Taiwan, International Conference 2012,Taipei, Taiwan, (2012)

10. V. R. Supradeepa, J. Nicholson, C. Headley, Y.W. Lee, B. Palsdottir, and D. Jakobsen, “Cascaded Raman fiber laser at 1480 nm with output power of 104 W”, Photonics West, 8237-48, San Jose, CA (2012).

11. C. L. Chang, Y. Y. Li, Y. W. Lee, Y. P. Lai,and S. L. Huang, “High performance nanosecond core-pumped ytterbium doped fiber preamplifier module in all-fiber propagation”, International Photonics Conference (IPC),Tainan, Taiwan, (2011) 

12. Y. W. Lee*, S. Sinha, M. J. F. Digonnet, R. L. Byer and S. Jiang, “10-Watt, single-mode, single- frequency, 1.03 μm Yb3+-doped phosphate fiber amplifier”, CLEO, CFS1, San Jose, CA (2008).

13. Y. W. Lee*, S. Sinha, M. J. F. Digonnet, R. L. Byer and S. Jiang, “Measurement of high

photodarkening resistance in heavily doped phosphate fibers”, Photonics West, 6873-49, San Jose, CA (2008); Proc. SPIE Vol. 6873 (2008).

14. Y. W. Lee*, K. E. Urbanek, M. J. F. Digonnet, R. L. Byer and S. Jiang, “Measurement of the stimulated Brillouin scattering gain coefficient of a phosphate fiber”, Photonics West, 6469-20, San Jose, CA (2007); Proc. SPIE Vol. 6469, 64690L (2007). 

15. Y. W. Lee*, S. Sinha, M. J. F. Digonnet, R. L. Byer and S. Jiang, “12-Watt single-mode Yb3+-doped phosphate fiber Laser”, CLEO, CTuI5, Long Beach, CA (2006).

16. Y. W. Lee, F .C. Fan, B.Z. Dong, B.Y. Gu and Y.C. Huang, “Aperiodic optical superlattice in Lithium Niobate for multi-wavelength conversion”, CLEO, CWE5, Long Beach, CA (2002).

17. Y. W. Lee and Y.C. Huang, “Conflicting experimental results of a Nd:YVO4/ Cr4+:YAG passively Q-switched microchip laser”, CLEO/ Pacific Rim 2001, P1-35, Japan (2000).