教師資料

葉秉慧 Pinghui Sophia Yeh 
photo
職稱
副教授
學歷
美國馬里蘭大學電機博士  
電子郵件
pyeh@mail.ntust.edu.tw
辦公室
T2-504-2
Office Hours
Mon. 2~4 p.m. and Wed. 2~4 p.m.
電話
886-2-2737-6368
傳真
886-2-2737-6424
個人網頁
實驗室
新穎光源研製與應用實驗室
研究領域
半導体雷射和發光二極體,光感測器,太陽能電池,晶体光纖光源和光放大器,生醫光電,光通訊
開授課程
物理,光電元件,固態照明,光電半導體元件

現職及經歷
2015.02
~
present 國立台灣科技大學電子系所與光電所副教授
2007.02
~
2015.01 國立台灣科技大學電子系所與光電所 助理教授
2001.10
~
2007.01 Optospace Technologies Inc. 創辦人與總裁
1999.01
~
2001.09 SDL, Inc./JDS Uniphase 組長
1995.07
~
1998.12 SDL, Inc. 工程師

重要研究成果
[1]
[2] 重要研究成果

榮譽及獎勵
2006
獲得美國國家衛生院(National Institutes of Health or NIH)小企業創新研究計畫(SBIR)獎助。
2005
獲得美國國家科學基金會(NSF)小企業創新研究計畫(SBIR)獎助。
2003
獲邀擔任美國國家科學基金會小企業創新研究計畫評審委員。
2003
獲得美國國家科學基金會(National Science Foundation or NSF)小企業創新研究計畫(Small Business Innovation Research or SBIR)獎助。

研究成果
期刊
[1] Pinghui S. Yeh*, Teng-Po Hsu, Yen-Chieh Chiu, Sian Yang, Cheng-You Wu, and Jung-Shan Liou, "III-Nitride Phototransistors Fabricated on a Light-Emitting-Diode Epitaxial Wafer," IEEE Photonics Technology Letters, V. 29, n. 19, pp. 1679-1682, 2017. [SCI, EI]
[2] P. S. Yeh*, C.-C. Chang, Y.-T. Chen, D.-W. Lin, J.-S. Liou, C. C. Wu, J. H. He, and H.-C. Kuo, "GaN-based vertical-cavity surface emitting lasers with sub-milliamp threshold and small divergence angle," Applied Physics Letters, V. 109, n. 24, 241103, 2016. [SCI, EI]
[3] Yi-Ting Huang, Pinghui S. Yeh*, Yen-Hsiang Huang, Yu-Ting Chen, Chih-Wei Huang, Cong Jun Lin, and Wenchang Yeh, "High Performance InGaN p-i-n Photodetectors Using LED Structure and Surface Texturing," IEEE Photonics Technology Letters, V. 28, n. 6, pp. 605-608, 2016. [SCI, EI]
[4] Pinghui S. Yeh*, Meng-Chun Yu, Jia-Huan Lin, Ching-Chin Huang, Yen-Chao Liao, Da-Wei Lin, Jia-Rong Fan, and Hao-Chung Kuo, "GaN-Based Resonant-Cavity LEDs Featuring a Si-Diffusion-Defined Current Blocking Layer," IEEE Photonics Technology Letters, V. 26, n. 24, pp. 2488-2491, 2014. [SCI, EI]
[5] Pinghui S. Yeh*, Chien-Wei Chen, Bing-Ru Yang, and Lu-Sheng Hong, " Light-scattering effectiveness of two-dimensional disordered surface textures in thin-film silicon solar cells," Applied Optics, V. 53, n. 13, pp. 2847-2852, 2014. [SCI, EI]
[6] C. C. Lai, C. P. Ke, S. K. Liu, C. Y. Lo, D. Y. Jheng, S. C. Wang, S. R. Lin, P. S. Yeh, and S. L. Huang*, "Intracavity and resonant Raman crystal fiber laser," Applied Physics Letters, 100, 261101, 2012. [SCI, EI]
[7] C. C. Lai, C. P. Ke, S. K. Liu, D. Y. Jheng, D. J. Wang, M. Y. Chen, Y. S. Li, P. S. Yeh, and S. L. Huang*, “Efficient and low-threshold Cr4+:YAG double-clad crystal fiber laser,” Optics Letters, V. 36, n. 6, pp. 784-786, 2011. [SCI, EI]
[8] Yen-Sheng Lin, Tzu-Chieh Cheng, Chien-Chung Tsai, Kuang-Yu Hsu, Dong-Yo Jheng, Chia-Yao Lo, Ping-Hui S. Yeh, and Sheng-Lung Huang*, “High-Luminance White-Light Point Source Using Ce,Sm:YAG Double-Clad Crystal Fiber,” IEEE Photonics Technology Letters, V. 22, n. 20, pp. 1494-1496, 2010. [SCI, EI]
[9] K. Y. Huang, K. Y. Hsu, D. Y. Jheng, W. J. Zhuo, P. Y. Chen, P. S. Yeh, and S. L. Huang, “Low-loss propagation in Cr4+:YAG double-clad crystal fiber fabricated by sapphire tube assisted CDLHPG technique,” Optics Express, V.16, n.16, pp. 12264-12271, 2008. [SCI, EI]
[10] C. Y. Lo, K. Y. Huang, J. C. Chen, C. Y. Chuang, C. C. Lai, S. L. Huang, Y. S. Lin, and P. S. Yeh, “Double-clad Cr4+: YAG crystal fiber amplifier,” Optics Letters, V. 30, n. 2, pp. 129-131, 2005. [SCI, EI]
[11] V. Dominic, S. MacCormack, R. Waarts, S. Sanders, S. Bicknese, R. Dohle, E. Wolak, P. S. Yeh, and E. Zucker, “110W fibre laser,” Electronics Lett., V. 35, pp. 1158-1160, 1999. [SCI, EI]
[12] C.-C. Lu, S. Jiang, P. S. Yeh, P. Heim, C. E. C. Wood, and M. Dagenais, “Wavelength conversion using a T-gate laser,” IEEE Photonics Technology Letters, V. 8, n. 1, pp.52-54, 1996. [SCI, EI]
[13] P. S. Yeh, I-F. Wu, S. Jiang and M. Dagenais, “High-power high-gain monolithically integrated pre-amplifier/power amplifier,” Electronics Letters, V. 29, n. 22, pp. 1981-1983, 1993. [SCI, EI]
會議
[1] Heng-I Lee, Li-An Yang, Chih-Ying Chen, Pinghui S. Yeh*, and Sheng-Lung Huang, “Laser Heated Pedestal Growth of Cr: Forsterite Crystalline Fibers Applied as Continuous-Wave Broadband Light Source for Optical Coherence Tomography,” Collaborative Conference on Crystal Growth (3CG), paper P03, Sep. 4-8, 2016 (Donostia?San Sebasti?n, Spain)
[2] Pinghui Sophia Yeh*, Chi-Chieh Chang, Yu-Ting Chen, Da-Wei Lin, Chun Chia Wu, Jhao Hang He, and Hao-Chung Kuo, “Blue resonant-cavity light-emitting diode with half milliwatt output power,” SPIE Photonics West, oral paper 9768-23, Feb. 13-18, 2016 (San Francisco, USA). Proc. SPIE 9768-23, Light-Emitting Diodes: Materials, Devices, and Applications for Solid State Lighting XX, 97680P.
[3] Tuan-Shu Ho, Jeng-Wei Tjiu, Meng-Ting Chien, Dong-Yi Wu, Chia-Kai Chang, Pinghui S. Yeh, Yu-I Li, Chia-Tung Shun, and Sheng-Lung Huang*, “Functional optical coherence tomography on human skin with cellular resolution,” BioPhotonics, invited paper, Fr 5.1, May 20-22, 2015 (Florence, Italy)
[4] Pinghui S. Yeh*, Chien-Wei Chen, Yu-Ting Chen, and Lu-Sheng Hong, “Optimization of Embedded Nano-particles for Energy Conversion,” Asia-Pacific Conference on Electrochemical Energy Storage and Conversion (APEnergy 2014), P50, Feb. 5-8, 2014 (Brisbane, Australia)
[5] Chien-Wei Chen, Bing-Ru Yang, Pinghui S. Yeh*, and Lu-Sheng Hong, “Simulation of silicon tandem solar cells surface-textured with low-refractive-index material,” the 23rd PVSEC (International Photovoltaic Science and Engineering Conference), paper 2-O-6, Oct. 28-Nov. 1, 2013 (Taipei, Taiwan)
[6] Bing-Ru Yang, Pinghui S. Yeh*, and Lu-Sheng Hong, “Simulation of microsphere-surface-textured glass for broadband light trapping in silicon thin-film solar cells,” 27th EU PVSEC (European Photovoltaic Solar Energy Conference), 3DV.1.19, Sep. 24-28, 2012 (Frankfurt, Germany)
[7] T. S. Ho, N. C. Cheng, C. K. Chang, K. Y. Hsu, D. Y. Jheng, Y. T. Wang, Y. S. Lin, C. C. Lai, P. L. Huang, S. L. Huang*, P. S. Yeh, and J. W. Tjiu, “Glass-clad crystal fibers based functional optical coherence tomography,” invited, paper We2.7, BioPhotonics, June 8-10, 2011 (Parma, Italy).
[8] C. C. Tsai, K. Y. Hsu, Y. T. Wang, Y. S. Lin, D. Y. Jheng, C. K. Chang, P. L. Huang, E. Sun, S. L. Huang* and P. S. Yeh, “Glass-Clad Crystal Fibers Based Ultrahigh Resolution Optical Coherence Tomography,” Invited paper, Summer Topical Meeting on Novel Waveguiding, Structures and Phenomena, July 19-21, 2010 (Riviera Maya, Mexico)
[9] P. S. Yeh*, H. Y. Wang, K. Y. Huang, S. L. Huang, K. Y. Hsu, and D. Y. Jheng, “Fabrication and Characterization of Cr:Forsterite Single Crystal Fiber,” SPIE Photonics West, paper 7195-68, Jan. 24-29, 2009 (San Jose, CA), published on Proc. SPIE, Vol. 7195, 71951W (2009) [EI]
[10] S. L. Huang, K. Y. Huang, K. Y. Hsu, C. N. Tsai, and P. S. Yeh, “Broadband emission and amplification from chromium-doped fibers ,” (invited paper), SPIE Asia-Pacific Optical Communications, paper 6781-81, Nov. 1-5, 2007 (Wuhan, China).
[11] S. L. Huang, C. Y. Lo, K. Y. Huang, J. C. Chen, C. Y. Chuang, C. C. Lai, Y. S. Lin, and P. S. Yeh, “Broadband Cr4+: YAG crystal fiber amplifier,” OSA Topical Meeting: Nonlinear Optics, Postdeadline paper ThD3, Aug. 2-6, 2004 (Waikoloa, HI).
[12] C. Y. Lo, K. Y. Huang, J. C. Chen, C. Y. Chuang, S. L. Huang, and P. S. Yeh, “Super-wideband amplified spontaneous emission generated by double-clad Cr4+: YAG crystal fiber,” CLEO’04, Paper CTuS7, May 16~21, 2004 (San Francisco, CA). [EI]
[13] K. Y. Huang, C. Y. Lo, S. Y. Tu, S. L. Huang and P. S. Yeh, “Diode array directly pumped Cr:YAG crystal fiber broadband light source,” Advanced Solid-State Photonics, Paper TuB12, Feb. 3-5, 2003 (San Antonio, TX).
[14] E. Wolak, S. Bicknese, P. S. Yeh, E. Zucker, X. Y. Hong, R. Dohle, and J. Endriz, “Novel high brightness diode laser source,” CLEO’99, Paper CMI2, May 23-28, 1999 (Baltimore, MD). [EI]
[15] V. Dominic, S. MacCormack, R. Waarts, S. Sanders, S. Bicknese, R. Dohle, E. Wolak, P. S. Yeh, and E. Zucker, “110W fibre laser,” CLEO’99, Paper CPD11, May 23-28, 1999 (Baltimore, MD). [EI]
[16] B. Li, P. S. Yeh, W. Sha, R. Nagarajan, and R. R. Craig, “High-power, high-speed single mode lasers for optical intersatellite link applications,” Proceedings of SPIE, V. 3266, pp. 49-53, 1998. [EI]
[17] B. Li, R. Parke, P. S. Yeh, G. Harnagel, R. Craig, and D. Welch, “Reliability of semiconductor Master Oscillator/Power Amplifier (MOPA) lasers,” SPIE LASE’96, Paper 2683-23, Jan. 27-Feb. 2, 1996 (San Jose, CA). [EI]
[18] M. Dagenais, S. H. Cho, P. S. Yeh, S. Fox, R. Prakasam, P. Heim, S. Merritt, C.-C. Lu, V. Vusirikala, B. P. Gopalan, S. Kareenahalli, and C. E. C. Wood, “High-power flared semiconductor laser amplifiers,” (invited paper) Proceedings of SPIE, V. 2397, pp.47-58, 1995. [EI]
[19] P. S. Yeh, I-F. Wu, S. Jiang and M. Dagenais, “Monolithic integration of a semiconductor preamplifier with a semiconductor tapered power amplifier,” Proceedings of SPIE, V. 2148, pp.116-123, 1994. [EI]
[20] P. S. Yeh, C.-C. Lu, S. Merritt, P. Heim, S. H. Cho, C. Dauga, S. Fox, C. E. C. Wood, and M. Dagenais, “Angled-facet high-power diffraction-limited tapered semiconductor amplifier,” IEEE LEOS Annual Meeting, Paper SL11.3, pp.399-400, Oct. 31-Nov. 3, 1994 (Boston, MA). [EI]
[21] P. S. Yeh, I-F. Wu, S. Jiang and M. Dagenais, “35-dB small-signal-gain high-power diffraction-limited tapered semiconductor amplifier,” IEEE LEOS Annual Meeting, Paper SCL6.3, pp. 588-589, Nov. 15-18, 1993 (San Jose, CA). [EI]
[22] P. S. Yeh, I-F. Wu, P. Heim, S. Merritt, S. Jiang, C. E. C. Wood, and M. Dagenais, “Self-aligned dissipating grid for high-power tapered semiconductor amplifiers,” CLEO’94, Paper CWH39, pp. 232-233, May 8-13, 1994 (Anaheim, CA). [EI]
專利
[1] Ping-hui Yeh, Meng-Chun Yu, Jia-Huan Lin and Ching-Chin Huang, “Method to fabricate GaN-based vertical-cavity surface-emitting devices featuring silicon-diffusion defined current blocking layer”, U. S. patent number: 9819152, Issued date: Nov. 14, 2017, Expiration date: Oct. 7, 2035, Assignee: National Taiwan University of Science and Technology.
[2] 葉秉慧、余孟純、林家煥、黃景勤,“一種以矽擴散型電流阻擋層製作氮化鎵垂直共振腔面射型發光元件的方法”,中華民國專利發明第I 563756號。
[3] 葉秉慧、李恆毅,“超寬頻近紅外線發光模組及產生超寬頻近紅外線的方法”,中華民國專利發明第I 555290號。
[4] 黃升龍、羅家堯、黃光堯、陳建誠、莊江源、賴建智、林彥勝、葉秉慧,“摻過渡金屬光纖放大器”,中華民國專利發明第I 315806號。
[5] S. L. Huang, C. Y. Lo, K. Y. Huang, J. C. Chen, C. Y. Chuang, C. C. Lai, Y. S. Lin, and P. S. Yeh, “Transition metal doped fiber amplifier”, U. S. patent number 7333263, Issued date: February 19, 2008.
著作
其他

研究計畫
計畫名稱 計畫總額 執行期限 委託單位
氮化銦鎵太陽能電池材料與元件之研製 99 - 100 國科會
選擇性引導氮化鎵量子井材料組成改變的研究 98 - 99 國科會
功能性玻璃披覆晶體光纖之萌芽 98 - 99 國科會
摻鉻鎂橄欖石光纖光源之研發 96 - 98 國科會
應用於醫學成像的近紅外線寬頻光纖光源 103 - 106 科技部
氮化鎵面射型雷射橫向侷限製程之研發 102 - 103 國科會
研究極化對氮化鎵基太陽能電池特性之影響與因應 101 - 102 國科會
氮化銦鎵太陽能電池材料與元件之研製(II) 100 - 101 國科會

指導論文
博士生
學年
論文題目
學生
碩士生
學年
論文題目
學生
100
氮化鎵發光二極體串聯電阻最低化的元件電路模型與製程改進
陳景煌
100
模擬薄膜太陽能電池之次微米球表面織構以增進光擷取
楊秉儒
99
有無電流阻擋層與不同透明導電層材料與厚度對氮化鎵發光二極體電流分佈的影響
廖彥超
99
以有機金屬化學氣相沉積製備高銦含量氮化銦鎵薄膜
楊勝涵
99
氮化鎵元件透明導電層的製程改進與特性量測
江秉燃
99
摻鉻鎂橄欖石寬頻光源斜線效率的影響因素
吳俊霖
98
研製和量測有二氧化矽電流阻擋層的氮化鎵發光二極體
董哲惟
98
氮化鎵元件p型接觸微影製程研發
謝曜聰
97
摻鉻鎂橄欖石晶體光纖製作與特性量測
王先佑
97
GaN/InGaN多重量子井之太陽電池模擬研究
張凱彥
97
氮化鎵發光二極體與太陽能電池積體化的可行性研究
黃鶴

指導專題
學年
專題題目
學生

指導學生之特殊榮譽
年份
事蹟