姓名：羅家堯

電話:02-24622192 轉 6717

最高學歷:
    國立中山大學光電工程研究所博士


專長:	

	(1)晶體成長

	(2)雷射技術

	(3)光纖通訊

研究所授課名稱:

光電材料

光纖通信系統

教師著作

I. SCI listed paper:

1.	C. Y. Lo, P. L. Huang, T. S. Chou, L. M. Lee, T. Y. Chang, S. L. Huang*, L. Lin, and F. C. Ho, (2002/11), “Efficient Nd:Y₃A_l5O₁₂ Crystal Fiber Laser,” Japanese Journal of Applied Physics 41, L1228-L1231.
2.	C. Y. Lo, K. Y. Huang, J. C. Cheng, S. Y. Tu, and S. L. Huang, (2004/3), “Glass-clad Cr4+:YAG Crystal Fiber for the Generation of Superwideband Amplified Spontaneous Emission,” Optics Letters*, 29, 439-441.
3.	C. Y. Lo, K. Y. Huang, J. C. Cheng, C. Y. Chuang, C. C. Lai, S. L. Huang, Y. S. Lin, and P. S. Yeh, (2005/1), “Double -clad Cr⁴⁺:YAG Crystal Fiber Amplifier,” Optics Letters*, 30, 129-131.
4.	J. C. Chen, C. Y. Lo, K. Y. Huang, F. J. Kao, S. Y. Tu, and S. L. Huang, (2005/2), “Fluorescence Mapping of Oxidation States of Cr Ions in YAG Crystal Fibers,” Journal of Crystal Growth, 274*, 522-529.
5.	J. Y. Ji, P. Shen, J. C. Chen, F. J. Kao, S. L. Huang, and C.Y. Lo, (2005/9), “On the Deposition of Cr_3-δO4 Spinel Particles upon Laser Heated Pedestal Growth of Cr:YAG Fiber,” Journal of Crystal Growth, 282*, 343-352.
6.	Y.S. Lin, C. C. Lai, K. Y. Huang, J. C. Chen, C. Y. Lo, S. L. Huang, T. Y. Chang, J. Y. Ji, P. Shen, (2006/4), “Nanostructure Formation of Double-clad Cr⁴⁺:YAG Crystal Fiber Grown by Co-drawing Laser-heated Pedestal,” Journal of Crystal Growth, 289*.
7.	J. C. Chen, K. Y. Huang, C. N. Tsai, Y. S. Lin, C. C. Lai,G. Y. Liu, F. J. Kao, S. L. Huang, C. Y. Lo*, Y. S. Lin, P. Shen, (2006/5), “Composition Dependence of the Microspectroscopy of Cr Ions in Double-clad Cr:YAG Crystal Fiber,” Journal of Applied Physics, 99.
8.	Y. S. Lin, T. C. Cheng, C. C. Tsai, K. Y. Hsu, D. Y. Jheng, C. Y. Lo, P. H. S. Yeh, and S. L. Huang*, (2010/10), “High- luminance White-light Point Source Using Ce,Sm: YAG Double-clad Crystal Fiber,” IEEE Photonics Technology Letters, 22, 1494-1496.
9.	C. Y. Lo, J. S. Hwang, X. M. Liu, Y. Y. Zhang, D. C. Chen, C. C. Wu, T. Y. Lin, and S. Chattopadhyay, (2010/12), “In-situ Visualization of a Super-accelerated Synthesis of Zinc Oxide Nanostructures through CO2 Laser Heating,” Journal of Crystal Growth, 312*, 3564-3568.
10.	C. L. Chang, S. L. Huang, C. Y. Lo, K. Y. Huang, C. W. Lan, W. H. Cheng, and P. Y. Chen, (2011/3), “Simulation and Experiment on Laser-heated Pedestal Growth of Chromium-doped Yttrium Aluminum Garnet Single-crystal Fiber,” Journal of Crystal Growth, 318*, 674-678.

II. Conference paper

1.	C. Y. Lo, L. M. Lee, C. Y. Tai, and S. L. Huang*, (2000), “Growth and Characterization of Gradient Index Laser Crystal Fibers,” International Photonics Conference, paper Th-T3-P001, Hsinchu, Taiwan.
2.	C. Y. Lo, T. S. Chou, P. L. Huang, L. M. Lee, S. L. Huang*, L. Lin, C. S. Chang, H. Y. Lin, and F. C. Ho, (2001), “Diode Laser Pumped Crystal Fiber Lasers with Gradient-index Profile,” Optics and Photonics Taiwan’01, paper TD2-2, Kaohsiung, Taiwan.
3.	C. Y. Lo, L. M. Lee, S. Y. Tu, K. Y. Huang, Y. C. Cho, and S. L. Huang*, (2002), “Crystal Fiber Devices for Optical Fiber Communications,” Japan-Taiwan Joint Symposium on Nanophotonics Technology, Osaka, Japan.
4.	C. Y. Lo, L. M. Lee, T. S. Chou, C. C. Lin, and S. L. Huang*, (2002), “Crystal Fiber Devices for Laser and Nonlinear Frequency Conversion,” ROC-Lithuania Bilateral Conference on Optoelectronics and Magnetic Materials, Taipei, Taiwan.
5.	C. Y. Lo, T. S. Chou, P. L. Huang, L. M. Lee, and S. L. Huang*, (2002), “High-efficient Nd:YAG Crystal Fiber Laser,” Conference on Lasers and Electro-Optics, paper CTuP6, Long Beach, California, USA.
6.	C. Y. Lo, T. S. Chou, L. M. Lee, P. L. Huang, S. L. Huang*, and Y. J. Huo, (2002), “Gradient-index Nd:YAG Crystal Fiber Laser,” Advanced Solid-State Lasers, paper MB-19, Quebec City, Canada.
7.	K. Y. Huang, C. Y. Lo, S. Y. Tu, and S. L. Huang*, (2002), “Super-wideband ASE Light Source Generated by Cr:YAG Crystal Fiber,” Optics and Photonics Taiwan’02, paper TG2-2, Taipei, Taiwan.
8.	J. C. Chen, C. Y. Lo*, S. L. Huang, and F. J. Kao, (2002), “Mapping of Cr Ion Profile in Cr:YAG Crystal Fiber by Confocal Microscopy,” Optics and Photonics Taiwan’02, paper FA3-5, Taipei, Taiwan.
9.	L. M. Lee, Y. C. Cho, C. J. Lin, C. Y. Lo, and S. L. Huang*, (2002), “The Study and Fabrication of Periodically-poled Lithium Niobate Crystal Fiber,” Optics and Photonics Taiwan’02, paper FF1-5, Taipei, Taiwan.
10.	S. L. Huang, C. Y. Lo*, L. M. Lee, K. Y. Huang, and J. C. Chen, (2003), “Crystal Fiber Devices for Super Wideband Optical Communication,” Taiwan-Japan Optoelectronics Workshop, Tainan, Taiwan.
11.	C. Y. Lo, S. Y. Tu, K. Y. Huang, and S. L. Huang*, (2003), “Fused-silica-clad Cr:YAG Fiber,” The 5Th Pacific Rim Conference on Lasers and Electro-Optics, paper TH4H-(7)-5, Taipei, Taiwan.
12.	J. C. Chen, C. Y. Lo*, S. L. Huang, and F. J. Kao, (2003), “The Use of Fluorescence Confocal Microscopy in Mapping Cr3+ Profile within the YAG Crystal Fiber,” The 5Th Pacific Rim Conference on Lasers and Electro-Optics, paper F2H-(7)-4, Taipei, Taiwan.
13.	C. Y. Lo, K. Y. Huang, S. Y. Tu, and S. L. Huang*, (2003), “280-nm Amplified Spontaneous Emission Generated by Cr⁴⁺:YAG Crystal Fiber,” Conference on Lasers and Electro-Optics, paper CWA55, Baltimore, Maryland, USA.
14.	J. C. Chen, C. Y. Lo*, S. L. Huang, and F. J. Kao, (2003), “Mapping of Cr Ion Profile in Cr:YAG Crystal Fiber by Confocal Microscopy,” Conference on Lasers and Electro-Optics, paper CWQ2, Baltimore, Maryland, USA.
15.	P. L. Huang, Y. J. Lu, J. Y. Yi, C. Y. Lo, and S. L. Huang*, (2003), “High Doping Gradient Nd:YAG Crystal Fiber,” Conference on Lasers and Electro-Optics, paper CWA2, Baltimore, Maryland, USA.
16.	K. Y. Huang, C. Y. Lo, S. Y. Tu, S. L. Huang*, and P. S. Yeh, (2003), “Diode Array Directly Pumped Cr:YAG Crystal Fiber Broadband Light Source,” Advanced Solid-State Photonics, paper TuB12, Texas, USA.
17.	J. C. Cheng, C. Y. Lo, K. Y. Huang, P. L. Huang, Y. H. Lin, F. J. Kao, and S. L. Huang*, (2003), “Mapping of Cr Ions Profile in Cr:YAG Crystal Fiber with Double-cladding Structure,” Optics and Photonics Taiwan’03, paper FH1-1, Taipei, Taiwan.
18.	S. L. Huang, C. Y. Lo*, K. Y. Huang, J. C. Cheng, P. L. Huang, and L. M. Lee, (2004), “Glass-clad Cr⁴⁺:YAG Crystal Fiber for the Generation of Super-wideband Amplified Spontaneous Emission,” International Symposium on Advances and Trends in Fiber Optics and Applications, Chongqing, China.
19.	S. L. Huang, C. Y. Lo*, K. Y. Huang, J. C. Cheng, C. Y. Chuang, C. C. Lai, Y. S. Lin and P. S. Yeh, (2004), “Broadband Cr⁴⁺:YAG Crystal Fiber Amplifier,” Nonlinear Optics: Material, Fundamental, and Applications, postdeadline paper ThD3, Hawaii, USA.
20.	C. Y. Lo, K. Y. Huang, J. C. Cheng, C. Y. Chuang, and S. L. Huang*, (2004), “Super-wideband Amplified Spontaneous Emission Generated by Double-clad Cr⁴⁺:YAG Crystal Fiber,” Conference on Lasers and Electro-Optics, paper CTuS7, San Francisco, California, USA.
21.	J. C. Cheng, C. Y. Lo, K. Y. Huang, C. C. Li, P. L. Huang, Y. H. Lin, F. J. Kao, S. L. Huang*, and Y. S. Lin, (2004), “Mapping of Cr Ions and Refraction Index Profile in Cr:YAG Crystal Fiber with Double-cladding Structure,” Conference on Lasers and Electro-Optics, paper CTuU7, San Francisco, California, USA.
22.	C. Y. Lo, K. Y. Huang, J. C. Cheng, C. N. Tsai, C. C. Lai, S. L. Huang*, and Y. S. Lin, (2004), “Wideband Chromium-doped Fiber Amplifier,” Symposium on Technologies for High-capacity Optical Communications, paper FRI-2, Kaohsiung, Taiwan.
23.	K. Y. Huang, C. Y. Lo, J. C. Chen, C. N. Tsai, C. C. Lai, S. L. Huang*, and Y. S. Lin, (2005), “Characterization on Broadband Chromium-doped Fiber Amplifier,” Conference on Lasers and Electro-Optics, paper CThB5, Baltimore, Maryland, USA.
24.	Y. S. Lin, C. C. Lai, K. Y. Huang, J. C. Chen, C. Y. Lo, S. L. Huang, T. Y. Chang, and P. Shen, (2005), “The Observation of Crystalline Nanostructure in Double-clad Cr⁴⁺:YAG Crystal Fiber,” OptoElectronics and Communication Conference, paper 7P-056, Seoul, Korea.
25.	S. L. Huang, T. Y. Chang, P. Shen, F. J. Kao, W. H. Cheng, C. Y. Lo, Y. S. Lin, K. Y. Huang, J. C. Chen, C. C. Lai, P. Y. Chen, C. N. Tsai, and Y. S. Lin, (2005), “Chromium- doped Wideband Fiber Amplifier,” Optics and Photonics Taiwan*, C-FR-V1, Tainan, Taiwan.
26.	K. Y. Huang, C. N. Tsai, K. Y. Hsu, J. C. Chen, S. H Chen, and P. Y. Chen, Y. S. Lin, C. C. Lai, Y. D. Huang, J. Y. Yi, Y. S. Lin, C. Y. Lo, P. Shen, T. Y. Chang, and S. L. Huang, (2006), “Broadband Optical Amplifier and Light Source Using Chromium Doped Fibers,” Optics and Photonics Taiwan*, Hsinchu, Taiwan.
27.	C. Y. Lo, Y. D. Huang, R. C. Shr, S. P. Wu, and S. L. Huang, (2007), “Study and Drawing of 2D and 3D Microstructured Fibers by the Laser-heated Pedestal Growth Method,” 海峽兩岸光學微結構與雷射技術研討會*, Nanjing, China.
28.	C. C. Lai, K. Y. Huang, H. J. Tsai, K. Y. Hsu, Z. W. Lin, K. D. Ji, C. Y. Lo, and S. L. Huang*, (2007), “Low-threshold Room-temperature Continuous-wave Double-clad Cr⁴⁺:YAG Crystal Fiber Laser,” The 5th Workshop on Fibers Optical Passive Components, paper F1A-2, Taipei, Taiwan.
29.	Y. S. Lin, T. C. Cheng, K. Y. Hsu, C. C. Tsai, D. Y. Jheng, C. N. Tsai, C. Y. Lo, and S. L. Huang*, (2009), “High-brightness White Light Point Source Using Ce,Sm:YAG Crystal Fiber,” Conference on Lasers and Electro-Optics, paper JThE39, Baltimore, Maryland, USA.
30.	X. M. Liu, Y. Y. Zhang, J. S. Hwang, and C. Y. Lo*, (2009), “Fast Growth of ZnO Nanowires at Room Temperature by CO2 Laser Heating,” Optics and Photonics Taiwan, paper AO206, Taipei, Taiwan.
31.	C. L. Chang , S. L. Huang , C. Y. Lo, K. Y. Huang, C. W. Lan, W. H. Cheng, and P. Y. Chen*, (2010), “Simulation and Experiment on Laser-heated Pedestal Growth of Chromium-doped Yttrium-aluminum-garnet Single-crystal Fiber,” The 16th International Conference on Crystal Growth(ICCG-16), Oral EG6, Beijing, China.
32.	P. Y. Chen, E. P. Huang, and C. Y. Lo*, (2011), “Three-dimension Simulation and Anlaysis for Heat Transfer and Flow Field on Micro-floating Zone of LHPG with Asymmetrical Perturbation,” 5^th International Workshop on Crystal Growth Technology, Poster T5/2, Berlin, Germany.
33.	C. Y. Lo and P. Y. Chen*, (2011), “Three-dimensional Simulation and Experiment on Micro-floating Zone of LHPG with Asymmetrical Perturbation,” International Conference on Materials for Advanced Technologies 2011, paper DD3-6, Suntec, Singapore.