黃升龍特聘教授的著作列表 - Publication List of Sheng-Lung Huang

Publication List of 黃升龍 Sheng-Lung Huang

Journal articles & book chapters:

  1. C. H. Liu, L. W. Fu, H. H. Chen, and S. L. Huang, “Toward cell nuclei precision between OCT and H&E images translation using signal-to-noise ratio cycle-consistency,” Computer Methods and Programs in Biomedicine, 242, 107824, Oct. 2023
  2. C. You, J. Y. Yi, T. W. Hsu, and S. L. Huang, “Integration of cellular-resolution optical coherence tomography and Raman spectroscopy for discrimination of skin cancer cells with machine learning,” Journal of Biomedical Optics, 28(9), 096005, Sept. 2023
  3. Y. H. Li, Y. W. Lee, and S. L. Huang, “Broadband wavelength-swept Cr4+:YAG crystal fiber laser,” Optics Express, 31, No. 20, 32772-32782, Sept. 2023
  4. M. Jain, S. W. Chang, K. Singh, N. R. Kurtansky, S. L. Huang, H. H. Chen, and C. S. J. Chen, “High resolution full-field optical coherence tomography for the evaluation of freshly excised skin specimens during Mohs surgery: A feasibility study,” Journal of Biophotonics, e2023000275, 1-10, Sept. 2023
  5. C. N. Liu, K. C. Chang, J. H. Tu, Z. Ma, T. T. Shih, C. W. Tu, S. L. Huang, and W. H. Cheng, “New scheme of microlens fiber array for high coupling efficiency in Si-photonics module,” IEEE Photonics Technology Letters, 35, No. 15, 817-820, Aug. 2023
  6. C. N. Liu, K. C. Chang, C. L. Tsai, W. C. Cheng, T. T. Shih, S. L. Huang, and W. H. Cheng, “17-dB net gain of broadband single-mode Cr-doped crystalline core fiber fabricated by small core,” IEEE Photonics Journal, 15, No. 3, 7100306, Jun. 2023
  7. S. T. Tsai, C. H. Liu C. C. Chan, Y. H. Li, S. L. Huang, and H. H. Chen, “H&E-like staining of OCT images of human skin via generative adversarial network,” Applied Physics Letters, 121, 134102, Sept. 2022
  8. Y. C. Lin, T. I Yang, and S. L. Huang, “Ultra-broadband wavelength-swept Ti:sapphire crystal fiber laser,” Optics Letters, 47, No. 11, 2778-2781, Jun. 2022
  9. K. M. Chueh, Y. T. Hsieh, H. H. Chen, I H. Ma, and S. L. Huang, “Identification of sex and age from macular optical coherence tomography and feature analysis using deep learning,” American Journal of Ophthalmology, 235, 221-228, Mar. 2022
  10. R. Soundararajan, T. W. Hsu, Y. Qin, and S. L. Huang, “Depth-dependent human skin backscattering spectra extraction from full-field optical coherence tomography,” Journal of Biophotonics, 15(1), e202100249, 1-11, Jan. 2022
  11. C. J. Ho, M. Calderon-Delgado, M. Y. Lin, J. W. Tjiu, S. L. Huang, and H. H. Chen, “Classification of squamous cell carcinoma from FF-OCT images: Data selection and progressive model construction,” Computerized Medical Imaging and Graphics, 93, 101992, Oct. 2021
  12. P. Y. Wu, J. H. Wu, Y. T. Hsieh, L. C. Chen, T. Cheng, P. Y. Wu, B. J. Hsieh, W. L. Huang, S. L. Huang, and W. L. Chen, “Comparing the results of manual and automated quantitative corneal neuroanalysing modules for beginners,” Scientific Reports, 11, 18208, Sept. 2021
  13. C. N. Liu, C. M. Liu, S. L. Huang, and W. H. Cheng, “Broadband single-mode Cr-doped crystalline core fiber with record 11-dB net gain by precise laser-heated pedestal growth and tetrahedral chromium optimization,” IEEE/OSA Journal of Lightwave Technology, 39, No. 11, 3531-3538, Jun. 2021
  14. B. K. Mekonnen, T. H. Hsieh, D. F. Tsai, S. K. Liaw, F. L. Yang, and S. L. Huang, “Generation of augmented capillary network optical coherence tomography image data of human skin for deep learning and capillary segmentation,” Diagnostics, 11, No. 4, 685, Apr. 2021
  15. T. S. Ho, M. R. Tsai, C. W. Lu, H. S. Chang, and S. L. Huang, “Mirau-type full-field optical coherence tomography with switchable partially spatially coherent illumination modes,” Biomedical Optics Express, 12, No. 5, 2670-2683, Apr. 2021
  16. T. I Yang, Y. C. Lin, S. C. Wang, and S. L. Huang, “Near-infrared broadband emission from glass-clad Cr-doped yttrium orthosilicate crystal fiber,” Optical Materials Express, 11, No. 3, 674–684, Mar. 2021
  17. C. Y. Tsai, C. H. Shih, H. S. Chu, Y. T. Hsieh, S. L. Huang, and W. L. Chen, “Sub-micron spatial resolution optical coherence tomography for visualising the 3D structures of cells cultivated in complex culture systems in vitro,” Scientific Reports, 11, 3492, 1-12, Feb. 2021
  18. C. J. Ho, M. Calderon-Delgado, C. C. Chan, M. Y. Lin, J. W. Tjiu, S. L. Huang, and H. H. Chen, “Detecting mouse squamous cell carcinoma from submicron FF-OCT images by deep learning,” Journal of Biophotonics, 14, e202000271-1- e202000271-12, 2021
  19. Y. Qin, R. Soundararajan, R. Jia, and S. L. Huang, “Direct inverse linearization of piezoelectric actuator’s initial loading curve and its applications in full-field optical coherence tomography,” Mechanical Systems and Signal Processing, 148, 107147-1-107147-13, 2021
  20. H. Y. Chou, S. L. Huang, J. W. Tjiu, and H. H. Chen, “Dermal epidermal junction detection for full-field optical coherence tomography data of human skin by deep learning,” Computerized Medical Imaging and Graphics, 87, 101833, 2021
  21. H. S. Chu, S. L. Huang, and W. L. Chen, “In-depth thinking about the diagnostic methods and treatment strategies for the corneal nerves in treating ocular surface disorders,” Current Ophthalmology Reports, 8, 19-27, 2020
  22. C. N. Liu, J. W. Li, Y. H. Tung, C. C. Yang, W. C. Cheng, S. L. Huang, and W. H. Cheng, “Enhancement of tetrahedral chromium (Cr4+) concentration for high-gain in single-mode crystalline core fibers,” IEEE Photonics Journal, 12, No. 2, 7200811, 2020
  23. T. I Yang, H. T. Liu, S. C. Wang, K. H. Chuang, T. C. Chou, and S. L. Huang, “Formation of ceramic and crystal claddings for Ti:sapphire crystalline fiber core,” Optical Materials Express, 10, No. 5, 1215-1223, 2020
  24. Y. H. Li, C. Y. Kuo, and S. L. Huang, “Transition-metal-ion doped tunable crystalline fiber lasers,” Acta Photonica Sinica, 49, No. 11, 1149010, 2020
  25. T. T. Yang, T. I Yang, R. Soundararajan, P. S. Yeh, C. Y. Kuo, S. L. Huang, and S. Donati, “Widely tunable, 25-mW power, Ti:sapphire crystal-fiber laser,” IEEE Photonics Technology Letters, 31, No. 24, 1921-1924, 2019
  26. Y. T. Chen, C. Y. Tsai, Y. K. Chiu, T. W. Hsu, W. L. Chen, and S. L. Huang, “En Face and cross-sectional corneal tomograms using sub-micron spatial resolution optical coherence tomography,” Scientific Reports, 8, 14349, Sept. 2018
  27. P. H. Lee, C. C. Chan, S. L. Huang, A. Chen, and H. H. Chen, “Extracting blood vessels from full-field OCT data of human skin by short-time RPCA,” IEEE Transactions on Medical Imaging, 37 (8), 1899–1909, Aug. 2018
  28. Y. Y. Li, Y. W. Lee, T. S. Ho, J. H. Wang, I C. Wu, T. W. Hsu, Y. T. Chen, and S. L. Huang, “Spectroscopic characterization of Si/Mo thin-film stack at extreme ultraviolet range,” Optics Letters, 43, 4029–4032, Aug. 2018
  29. P. Y. Lai, C. L. Chang, S. L. Huang, and S. H. Chen, “Compact millijoule diode-seeded two-stage fiber master oscillator power amplifiers using a multi-pass and forward pumping scheme,” Applied Optics, 57 (13), 3551–3555, May 2018
  30. Y. W. Lee, W. C. HuangFu, Y. Y. Li, I C. Wu, S. L. Huang, S. K. Liaw, and M. Dubinskii, “Distributed and side-pumped fiber laser using a laser diode bar stack,” IEEE Access, 6, 70456-70462, 2018
  31. C. N. Liu, T. H. Wang, T. S. Rou, N. K. Chen, S. L. Huang, and W. H. Cheng, “Higher gain of single-mode Cr-doped fibers employing optimized molten-zone growth,” IEEE/OSA Journal of Lightwave Technology, 35(22), 4930-4936, Nov. 2017
  32. Y. Y. Li, Y. W. Lee, T. S. Ho, R. T. Wei, P. Y. Lai, K. S. Jao, I. C. Wu, S. H. Chen, and S. L. Huang, “Interferometry-based EUV spectrometer,” IEEE Photonics Journal, 9(4), 3400108-1-3400108-8, Aug. 2017
  33. C. K. Chang, C. C. Tsai, W. Y. Hsu, J. S. Chen, Y. H. Liao, Y. S. Sheen, J. B. Hong, M. Y. Lin, J. W. Tjiu, and, S. L. Huang, “Segmentation of nucleus and cytoplasm of a single cell in three-dimensional tomogram using optical coherence tomography,” Journal of Biomedical Optics, 22(3), 036003, 2017
  34. B. K. Chen, T. Y. Chen, S. G. Hung, S. L. Huang, and J. Y. Lin, “Twin image removal in digital in-line holography based on iterative inter-projections,” Journal of Optics, 18, 065602, 2016
  35. S. C. Wang, C. Y. Hsu, T. T. Yang, D. Y. Jheng, T. I Yang, T. S. Ho, and S. L. Huang, “Laser-diode pumped glass-clad Ti:sapphire crystal fiber laser,” Optics Letters, 41, 3217-3220, 2016
  36. C. N. Liu, G. L. Cheng, N. K. Chen, P. L. Huang, S. L. Huang, and W. H. Cheng, “Gain enhancement of single-mode Cr-doped core fibers by online growth system,” IEEE Photonics Technology Letters, 28, No. 19, 2098-2101, 2016
  37. W. L. Wang, G. L. Cheng, Y. C. Huang, C. C. Wei, N. K. Chen, S. L. Huang, and W. H. Cheng, “Single-mode Cr-doped crystalline core fibers for broadband fiber amplifiers,” IEEE Photonics Technology Letters, 27, No. 2, 205-208, Feb. 2015
  38. S. C. Wang, T. I Yang, D. Y. Jheng, C. Y. Hsu, T. T. Yang, T. S. Ho, and S. L. Huang, “Broadband and high-brightness light source: Glass-clad Ti:sapphire crystal fiber,” Optics Letters, 40, 5594-5597, 2015
  39. C. N. Liu, Y. C. Huang, P. L. Huang, N. K. Chen, C. P. Yu, S. L. Huang, and W. H. Cheng, “Broadband Ce/Cr-doped crystal fibers for high axial resolution OCT light source,” Optics Express, 23, 29723-29728, 2015
  40. D. Y. Jheng, K. Y. Hsu, Y. C. Liang, and S. L. Huang, “Broadly tunable and low-threshold Cr4+:YAG crystal fiber laser,” IEEE Journal of Selected Topics in Quantum Electronics, 21, 0900608, 2015
  41. C. C. Tsai, C. K. Chang, K. Y. Hsu, T. S. Ho, M. Y. Lin, J. W. Tjiu, and S. L. Huang, “Full-depth epidermis tomography using a Mirau-based full-field optical coherence tomography,” Biomedical Optics Express, 5, No. 9, pp. 3001–3010, 2014
  42. 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, 6, No. 3, 1500809, 2014
  43. T. S. Ho, P. Yeh, C. C. Tsai, K. Y. Hsu, and S. L. Huang, “Spectroscopic measurement of absorptive thin films by spectral-domain optical coherence tomography,” Optics Express, 22, No. 5, pp. 5675–5683, 2014
  44. C. L. Chang, Y. Y. Lin, P. Y. Lai, Y. Y. Li, S. H. Chen, and S. L. Huang, “High power broadband continuum source based on an all-PM-fiber master-oscillator nonlinear power amplifier,” Laser Physics, 24, 045101, 2014
  45. C. N. Liu, Y. C. Huang, Y. S. Lin, S. Y. Wang, P. L. Huang, T. T. Shih, S. L. Huang, and W. H. Cheng, “Fabrication and characteristics of Ce-doped fiber for high-resolution OCT Source,” IEEE Photonics Technology Letters, 26, No. 15, pp. 1499–1502, 2014
  46. W. L. Wang, G. L. Cheng, Y. C. Huang, N. K. Chen, S. L. Huang, and W. H. Cheng, “Few-mode Cr-doped fibers by cladded high index glass for broadband fiber amplifiers,” IEEE Photonics Technology Letters, 26, No. 6, pp. 587–590, 2014
  47. K. Y. Hsu, M. H. Yang, D. Y. Jheng, C. C. Lai, S. L. Huang, K. Mennemann, and V. Dietrich, “Cladding YAG crystal fibers with high-index glasses for reducing the number of guided modes,” Optical Materials Express, 3, No. 6, pp. 813-820, 2013
  48. Y. C. Huang, C. N. Liu, Y. S. Lin, J. S. Wang, W. L. Wang, F. Y. Lo, T. L Chou, S. L. Huang, and W. H. Cheng, “Fluorescence enhancement in broadband Cr-doped fibers fabricated by drawing tower,” Optics Express, 21, No. 4, pp. 4790-4795, 2013
  49. Y. S. Lin, C. C. Lai, and S. L. Huang, “High-resolution transmission electron microscopy analysis of the microstructures of Cr4+:Y3Al5O12 double-clad crystal fibers prepared by LHPG method,” Journal of Materials Science: Materials in Electronics, 4, pp. 911-915, 2013
  50. N. C. Cheng, T. H. Hsieh, Y. T. Wang, C. C. Lai, C. K. Chang, M. Y. Lin, D. W. Huang, J. W. Tjiu, and S. L. Huang, “Cell death detection by quantitative three-dimensional single-cell tomography,” Biomedical Optics Express, 3, No. 9, pp. 2111-2120, 2012
  51. 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
  52. K. Y. Hsu, D. Y. Jheng, Y. H. Liao, T. S. Ho, C. C. Lai, and S. L. Huang, “Diode- laser-pumped glass-clad Ti:sapphire crystal fiber based broadband light source,” IEEE Photonics Technology Letters, 24, No. 10, pp. 854-856, 2012
  53. W. L. Wang, J. S. Wang, Y. C. Huang, L. W. Liu, S. L. Huang, and Wood-Hi Cheng, “Few-mode Cr-doped crystalline core fibers for fiber amplifier,” IEEE Photonics Technology Letters, 24, No. 18, pp. 1628-1631, 2012
  54. C. W. Huang, C. L. Chang, C. H. Kuan, S. L. Huang, and D. W. Huang, “Side-coupling scheme for a high-power laser diode array with grating couplers: Thermal and geometrical issues,” IEEE/OSA Journal of Lightwave Technology, 30, No. 11, pp. 1743-1749, 2012
  55. C. W. Huang, C. L. Chang, D. Y. Jheng, K. Y. Hsu, S. L. Huang, and D. W. Huang, “Direct side pumping of double-clad fiber laser by laser diode array through the use of subwavelength grating coupler,” IEEE Photonics Journal, 4, No. 2, pp. 411-421, 2012
  56. S. M. Yeh, S. L. Huang, Y. J. Chiu, H. Taga, P. L. Huang, Y. C. Huang, Y. K. Lu, J. P. Wu, W. L. Wang, D. M. Kong, K. Y. Huang, J. S. Wang, P. Yeh, and W. H. Cheng, “Broadband chromium-doped fiber amplifiers for next-generation optical communication systems,” IEEE/OSA Journal of Lightwave Technology, 30, No. 6, pp. 921-927, 2012
  57. B. K. Chen, Y. C. Ho, T. S. Hung, Y.-L. Chang, M. C. Chou, S. Y. Chen, H. H. Chu, S. L. Huang, P. H. Lin, J. Wang, J. Y. Lin, “High-brightness optical-field-ionization collisional-excitation extreme-ultraviolet lasing pumped by a 100-TW laser system in an optically preformed plasma waveguide,” Applied Physics B: Lasers and Optics, 106, No. 4, pp. 817-822, 2012
  58. C. C. Lai, P. Yeh, S. C. Wang, D. Y. Jheng, C. N. Tsai, and S. L. Huang, “Strain-dependent fluorescence spectroscopy of nanocrystals and nanoclusters in Cr:YAG crystalline-core fibers and its impact on lasing behavior,” Journal of Physical Chemistry C, 116, pp. 26052-26059, 2012
  59. J. Y. Yi, Y. W. Fan, and S. L. Huang, “Study of short-wavelength Yb:fiber laser,” IEEE Photonics Journal, 4, No. 6, pp. 2278-2284, 2012
  60. C. C. Lai, S. C. Wang, Y. S. Lin, T. H. Chen, and S. L. Huang, “Near-field spectroscopy of broadband emissions from γ-Al2O3 nanocrystals in Cr-doped double-clad fibers,” Journal of Physical Chemistry C, 115, 20289-20294, 2011
  61. C. C. Tsai, Y. S. Lin, S. C. Pei, C. K. Chang, T. H. Chen, N. C. Cheng, M. K. Tsai, C. C. Lai, W. Y. Li, C. K. Wei, and S. L. Huang, “Micro-structural and micro-spectral characterization of vertical-aligned liquid crystal display panel,” Optics Letters, 36, 567-569, 2011
  62. K. Y. Hsu, D. Y. Jheng, M. H. Yang, Y. S. Lin, K. Y. Huang, Y. H. Liao, and S. L. Huang, “Bi-directionally pumped Cr4+:YAG crystal fiber light source for optical coherence tomography,” Journal of the Optical Society of America B, 28, 288-292, 2011
  63. Y. C. Huang, Y. S. Lin, J. S. Wang, W. L. Wang, H. J. Wang, S. L. Huang, and W. H. Cheng, “Study of spectroscopy and microstructure in nanocrystalline Cr-doped fibers grown by the drawing-tower technique,” Journal of Electronic Materials, 40, 97-101, 2011
  64. 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, 36, 784-786, 2011
  65. C. L. Chang, S. L. Huang, C. Y. Lo, K. Y. Huang, C. W. Lan, W. H. Cheng, and P. Y. Chen, “Simulation and experiment on laser-heated pedestal growth of chromium-doped yttrium-aluminum-garnet single-crystal fiber,” Journal of Crystal Growth, 318, 674-678, 2011
  66. S. C. Pei, T. S. Ho, C. C. Tsai, T. H. Chen1, Y. Ho, P. L. Huang, A. H. Kung, and S. L. Huang, “Non-invasive characterization of the domain boundary and structure properties of periodically poled ferroelectrics,” Optics Express, 19, pp.7153-7160, 2011
  67. J. Y. Yi, K. Y. Huang, C. C. Lai, H. Peng, L. H. Chen, and S. L. Huang, “Ytterbium- doped yttrium aluminum garnet crystal fiber multipass ring laser,” Japanese Journal of Applied Physics, 49, 122701, 2010
  68. Y. S. Lin, T. C. Cheng, C. C. Tsai, K. Y. Hsu, D. Y. Jheng, C. Y. Lo, P. S. Yeh and S. L. Huang, “High-luminance white-light point source using Ce,Sm:YAG double-clad crystal fiber,” IEEE Photonics Technology Letters, 22, 1494-1496, 2010
  69. C. C. Lai, Y. S. Lin, K. Y. Huang, and S. L. Huang, “Study on the core/cladding interface in Cr:YAG double-clad crystal fibers grown by the co-drawing laser heated pedestal growth method,” Journal of Applied Physics, 108, 054308, 2010
  70. Y. C. Huang, J. S. Wang, Y. S. Lin, T. C. Lin, W. L. Wang, Y. K. Lu, S. M. Yeh, H. H. Kuo, S. L. Huang, and W. H. Cheng, “Development of broadband single-mode Cr-doped silica fibers,” IEEE Photonics Technology Letters, 22, 914-916, 2010
  71. C. C. Tsai, T. H. Chen, Y. S. Lin, Y. T. Wang, W. Chang, K. Y. Hsu, Y. H. Chang, P. K. Hsu, D. Y. Jheng, K. Y. Huang, E. Sun, and S. L. Huang, “Ce3+:YAG double-clad crystal-fiber- based optical coherence tomography on fish cornea,” Optics Letters, 35, 811-813, 2010
  72. S. C. Pei, T. S. Ho, T. M. Tai, L. M. Lee, J. C. Chen, A. H. Kung, F. J. Kao, and S. L. Huang, “Drawing of single crystal and glass-clad lithium tantalate fibers by the laser-heated pedestal growth method,” Journal of Applied Crystallography, 43, 48-52, 2010
  73. C. C. Lai, K. Y. Huang, H. J. Tsai, K. Y. Hsu, S. K. Liu, C. T. Cheng, K. D. Ji, C. P. Ke, S. R. Lin, and S. L. Huang, “Yb3+:YAG-silica fiber laser,” Optics Letters, 34, 2357, Aug. 2009
  74. P. Y. Chen, C. L. Chang, K. Y. Huang, C. W. Lan, W. H. Cheng and S. L. Huang, “Experiment and simulation on interface shapes of an yttrium aluminium garnet miniature molten zone formed using the laser-heated pedestal growth method for single-crystal fibers,” Journal of Applied Crystallography, 42, 553, Jul. 2009
  75. S. L. Huang, “Response to “Comment on ‘Distribution of oxidation states of Cr ions in Ca or Ca/Mg co-doped Cr:Y3Al5O12 single crystal fibers with nitrogen or oxygen annealing environments’ by C. N. Tsai et al.”,” Journal of Crystal Growth, 311, 298, Jan. 2009
  76. H. J. Tsai, C. C. Lai, K. Y. Huang, Z. W. Lin, K. Y. Hsu, and S. L. Huang, “Design and optimization of Cr4+:YAG double-clad crystal fiber laser,” Japanese Journal of Applied Physics, 48, 0722021, 2009
  77. S. M. Yeh, J. Y. Feng, K. Y. Huang, W. J. Zhuo, Y. C. Huang, T. S. Lay, S. L. Huang, P. Yeh, and W. H. Cheng, “Transmission and coupling characteristics of ultra-broadband Cr-doped multimode fibers,” IEEE/OSA Journal of Lightwave Technology, 27, 2834, 2009
  78. C. C. Lai, H. J. Tsai, K. Y. Huang, K. Y. Hsu, Z. W. Lin, K. D. Ji, W. J. Zhuo, and S. L. Huang, “Cr4+:YAG double-clad crystal fiber laser,” Optics Letters, 33, 2919-2921, Dec. 2008
  79. 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, 16, 12264-12271, 2008
  80. K. Y. Huang, K. Y. Hsu, and S. L. Huang, “Analysis of ultra-broadband amplified spontaneous emissions generated by Cr4+:YAG single and glass-clad crystal fibers,” IEEE/OSA Journal of Lightwave Technology, 26, pp. 1632-1639, 2008
  81. C. N. Tsai, K. Y. Huang, H. J. Tsai, and J. C. Chen, Y. S. Lin, S. L. Huang, and Y.S. Lin, “Distribution of oxidation states of Cr ions in Ca or Ca/Mg co-doped Cr:Y3Al5O12 single crystal fibers with nitrogen or oxygen annealing environments,” Journal of Crystal Growth, 310, pp. 2774-2779, 2008
  82. S. M. Yeh, D. J. Feng, Y. C. Huang, T. S. Lay, S. L. Huang, P. Yeh, and W. H. Cheng, “Mode matching and insertion loss in ultra-broadband Cr-doped multimode fibers,” Optics Letters, 33, pp. 785-787, 2008
  83. C. C. Tsai, H. C. Wei, S. L. Huang, C. E. Lin, C. J. Yu, and C. Chou, “High speed interferometric ellipsometer,” Optics Express, 16, pp.7778-7788, 2008
  84. C. N. Tsai, Y. S. Lin, K. Y. Huang, Y. S. Lin, C. C. Lai, and S. L. Huang, “Enhancement of Cr4+ Concentration in Y3Al5O12 Crystal Fiber by Pregrowth Perimeter Deposition,” Japanese Journal of Applied Physics, 47, pp.6369-6373, 2008
  85. L. M. Lee, S. C. Pei, D. F. Lin, M. C. Tsai, T. M. Tai, P. C. Chiu, D. H. Sun, A. H. Kung, and S. L. Huang, “Generation of tunable blue/green laser using ZnO:PPLN crystal fiber by self-cascaded second order nonlinearity,” Journal of the Optical Society of America B, 24, 1909-1915, Aug. 2007
  86. H. Taga, S. L. Huang, T. Y. Chang, and W. H. Cheng, “The 11th OptoElectronics and Communications Conference,” IEEE Communications Magazine, 44, May 2007
  87. J. C. Chen, Y. S. Lin, C. N. Tsai, K. Y. Huang, C. C. Lai, W. Z. Su, R. C. Shr, F. J. Kao, T. Y. Chang, and S. L. Huang, “400-nm-bandwidth emission from a Cr-doped glass fiber,” IEEE Photonics Technology Letters, 19, 595-597, Apr. 2007
  88. Y. C. Huang, J. S. Wang, Y. K. Lu, W. K. Liu, K. Y. Huang, S. L. Huang, and W. H. Cheng, “Preform fabrication and fiber drawing of 300 nm broadband Cr-doped fibers,” Optics Express, 15, pp. 14382-14388, 2007
  89. Y. C. Huang, Y. K. Lu, J. C. Chen, Y. C. Hsu, Y. M. Huang, S. L. Huang, and W. H. Cheng, “Broadband emission from Cr-doped fibers fabricated by drawing tower,” Optics Express, 14, pp.8492-8497, Sept. 2006
  90. J. Y. Yi, L. H. Chen, and S. L. Huang, “Efficient and compact Yb:YAG ring laser,” IEEE Journal of Quantum Electronics, 42, pp. 791-796, Aug. 2006
  91. J. C. Chen, K. Y. Huang, C. N. Tsai, Y. S. Lin, C. C. Lai, G. Y. Liu, F. J. Kao, and S. L. Huang, C. Y. Lo, Y. S. Lin, and P. Shen, “Composition dependence of the micro-spectroscopy of Cr ions in double-clad Cr:YAG crystal fiber,” Journal of Applied Physics, 99, 093113, May 2006
  92. Y. S. Lin, C. C. Lai, K. Y. Huang, J. C. Chen, C. Y. Lo, S. L. Huang, T. Y. Chang, J. Y. Ji, and P. Shen, “Nanostructure formation of double-clad Cr4+:YAG crystal fiber grown by co-drawing laser-heated pedestal,” Journal of Crystal Growth, 289, pp. 515-519, 2006
  93. W. K. Kuo, C. H. Pai, S. L. Huang, H. Y. Chou, and H. S. Huang, “Electro-optic mapping systems of electric-field using CW laser diodes,” Optics & Laser Technology, 38, pp. 111-116, 2006
  94. H. T. Tuan and S. L. Huang, “The analysis of reentrant two-mirror non-planar ring laser cavity,” Journal of the Optical Society of America A, 22, pp. 2476-2482, 2005
  95. J. Y. Ji, P. Shen, J. C. Chen, F. J. Kao, S. L. Huang, and C.Y. Lo, “On the deposition of Cr3-O4 spinel particles upon laser heated pedestal growth of Cr:YAG fiber,” Journal of Crystal Growth, 282, pp.343-352, 2005
  96. L. M. Lee, T. S. Chou, J. C. Chen, S. L. Huang, Y. C. Cho, C. C. Kuo, and H. W. Lee, “In-situ poling of MgO doped lithium niobate crystal fiber by modulation of pyroelectric field,” Optics Communications, 253, pp. 375-381, 2005
  97. J. Y. Yi and S. L. Huang, “Planar multipass ring laser cavity,” Japanese Journal of Applied Physics, 44, Part 1, No. 3, pp. 1272-1277, 2005
  98. J. C. Chen, C. Y. Lo, K. Y. Huang, F. J. Kao, S. Y. Tu, and S. L. Huang, “Fluorescence mapping of oxidation states of Cr ions in YAG crystal fibers,” Journal of Crystal Growth, 274, pp. 522-529, 2005
  99. 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, 30, pp. 129-131, 2005
  100. C. Y. Lo, K. Y. Huang, J. C. Chen, S. Y. Tu, and S. L. Huang, “Glass-clad Cr4+:YAG crystal fiber for the generation of super-wideband amplified spontaneous emission,” Optics Letters, 29, pp. 439-441, 2004
  101. P. L. Huang, C. J. Weng, H. T. Tuan, S. C. Pei, Y. H. Chang, and S. L. Huang, “Polarization analysis of a nonplanar reentrant ring laser cavity,” Japanese Journal of Applied Physics, 42, Part 1, No. 6A, pp.3403-3408, 2003
  102. S. L. Huang, Y. H. Chen, P. L. Huang, J. Y. Yi, and H. Z. Cheng, “Multi-reentrant non-planar ring laser cavity,” IEEE Journal of Quantum Electronics, 38, No.10, pp. 1301-1308, 2002
  103. C. Y. Lo, P. L. Huang, T. S. Chou, L. M. Lee, T. Y. Chang, S. L. Huang, L. C. Lin, H. Y. Lin, and F. C. Ho, “Efficient Nd:YAG crystal fiber laser,” Japanese Journal of Applied Physics, 41, Part 2, No. 11A, L1228-1231, 2002
  104. C. W. Wang, Y. L. Weng, P. L. Huang, H. Z. Cheng, and S. L. Huang, “Passively Q-switched and intracavity frequency-doubled blue laser,” Applied Optics, 41, No. 6, pp. 1075-1081, 2002
  105. F. J. Kao, J. C. Chen, S. C. Shih, A. Wei, S. L. Huang, T. S. Horng, and P. Torok, “Optical beam induced current microscopy at DC and radio frequency,” Optics Communications, 211, pp. 39-45, 2002
  106. P. L. Huang, C. R. Weng, H. Z. Cheng, and S. L. Huang, “A passively Q-switched laser constructed by a two-mirror reentrant ring cavity,” Japanese Journal of Applied Physics, 40, Part 2, No. 5B, L508-510, 2001
  107. W. K. Kuo, W. H. Chen, Y. T. Huang, and S. L. Huang, “Two-dimensional electrical-field vector measurement by a LiTaO3 electro-optic probe tip,” Applied Optics, 39, No. 9, pp. 4985-4993, 2000
  108. W. H. Chen, W. K. Kuo, S. L. Huang, and Y. T. Huang, “On-wafer electro-optic probing using rotational deformation modulation,” IEEE Photonics Technology Letters, 12, No. 9, pp. 1228-1230., 2000
  109. H. Z. Cheng, P. L. Huang, S. L. Huang, and F. J. Kao, “Reentrant 2-mirror ring resonator for generation of a single frequency green laser,” Optics Letters, 25, pp. 542-544, 2000
  110. S. L. Huang, J. W. Lin, C. C. Kang, and H. Z. Cheng, “Diode-laser pumped high-power and actively mode-locked Nd:YLF laser with fast switching,” Optical and Quantum Electronics, 32, pp. 609-617, 2000
  111. W. K. Kuo, Y. T. Huang, and S. L. Huang, “Three-dimensional electric field vector measurement by electro-optic prober,” Optics Letters, 24, pp. 1546-1548., 1999
  112. F. J. Kao, M. K. Huang, Y. S. Wang, S. L. Huang, M. K. Lee, and C. K. Sun, “Two-photon optical beam induced current imaging of InGaN blue LEDs,” Optics Letters, 24, pp. 1407-1409, 1999
  113. J. W. Lin, S. L. Huang, and F. J. Kao, “Self-phase modulation and fast switching enhanced pulse generation in an actively mode-locked Nd:YLF laser,” Optics Communications, 161, pp. 37-41, 1999
  114. S. L. Huang, T. Y. Tsui, C. H. Wang, and F. J. Kao, “Timing jitter reduction of a passively Q-switched laser,” Japanese Journal of Applied Physics, 38, Part 2, No. 3A, L239-241, 1999
  115. S. L. Huang, W. L. Wu, and P. L. Huang, “Measurement of temperature gradient in diode-laser-pumped high-power solid-state laser by low-coherence reflectometry,” Applied Physics Letters, 73, No. 23, pp.3342-3344, 1998
  116. W. L. Wu and S. L. Huang, “Low-coherence reflectometry of thermal properties in diode-laser-pumped high power solid-state laser,” IEEE Photonics Technology Letters, 10, No. 6, pp. 851-853, 1998
  117. S. L. Huang, F. J. Kao, H. S. Hsieh, and C. S. Hsu, “Polarization-dependent periodic pulse oscillation in a diode-laser-pumped and intracavity-frequency-doubled Nd:YVO4 laser,” Applied Optics, 37, No. 12, pp. 2397-2401, 1998
  118. W. K. Kuo, S. L. Huang, T. S. Horng, and L. C. Chang, “Two-dimensional mapping of Eeectric-field vector by electro-optic prober,” Optics Communications, 149, pp. 55-60, 1998
  119. F. J. Kao, S. Y. Chou, S. L. Huang, S. A. Chen, K. R. Chuang, and W. Fann, “Imaging photo-induced reaction of poly (p-phenylenevinylene) thin films by a spectrally resolved laser scanning microscope,” Japanese Journal of Applied Physics, 37, Part 1, No. 8, pp.4409-4411, 1998
  120. S. L. Huang, F. J. Kao, L. R. Liu, and C. S. Hsu, “Frequency-offsetted cavity-length control loop in a diode-laser-pumped and actively mode-Locked Nd:YLF Laser,” Optics Communications, 134, pp. 171-174, 1997
  121. S. L. Huang, K. C. Lee, P. J. Tsai, J. Y. Lin, W. J. Chen, and J. S. Lin, “Experimental study of coplanar strip-line based high-speed device interconnect,” Materials Chemistry and Physics, 45, pp. 67-70, 1996
  122. S. L. Huang and C. H. Lee, invited, “Ultrafast optomicrowave interaction,” Optoelectronics Devices and Technologies, 10, No.4, pp.461-476, 1995
  123. S. L. Huang, C. H. Lee, and H-L. A. Hung, “Real-time network analysis using photoconductive mixer and samplers,” IEEE Transactions on Microwave Theory & Tech., MTT-43, pp. 1281-1289, 1995
  124. S. L. Huang, C. H. Lee, and H-L. A. Hung, “Optical controlled generation and true-time-delay phase-shifts of broadband 60 GHz signals,” IEEE Microwave and Guided Wave Letters, 3, pp. 42-44, 1993
  125. S. L. Huang, E. A. Chauchard, C. H. Lee, H-L. A. Hung, T. T. Lee, and T. Joseph, “On-wafer photoconductive sampling of MMICs,” IEEE Transactions on Microwave Theory & Tech., MTT-40, pp. 2312-2320, 1992

Conference & proceeding papers:

  1. K. C. Chang, C. L. Tsai, W. C. Cheng, Z. Ma, C. N. Liu, T. T. Shih, S. L. Huang, and W. H. Cheng, “Record gain of 18-dB for broadband single-model Cr-doped crystalline core fiber by small core diameter,” Conference on Optical Fiber Communications (OFC), paper Th3C.4, San Diego, CA, U.S.A., 2023
  2. S. W. Chang, Y. H. Wu, P. S. Yeh, and S. L. Huang, “Nuclei segmentation of in vivo optical coherence tomography by deep learning,” TechConnect World Innovation Conference, Washington, D.C., U.S.A., 2022
  3. T. I Yang, S. L. Huang, and P. S. Yeh, “Ti:sapphire crystalline core and clad fiber for broadband NIR emission,” 9th Forum on New Materials, CIMTEC, Perugia, Italy, 2022
  4. S. L. Huang, invited, “Toward virtual histopathology by cellular-resolution OCT,” Workshop on AI x Medical and Healthcare, Taipei, Taiwan (online), 2022
  5. S. L. Huang, invited, “Optical coherence tomography: technologies and challenges,” Photonics Workshop, Izmir, Turkiye (online), 2022
  6. S. L. Huang, invited, “Optical coherence tomography,” Workshop on Advanced Photonics, Indore, India, 2022
  7. Y. C. Lin, T. I Yang, and S. L. Huang, invited, “Ultra-broadband wavelength-swept lasers for biomedical applications,” URSI-RCRS, Indore, India, 2022
  8. T. I Yang, Y. C. Yu, Y. C. Lin, and S. L. Huang, invited, “Fabrication and laser characterization of glass-clad single-crystalline-core fibers,” Advanced Solid-State Lasers Conference, Barcelona, Spain, 2022
  9. S. L. Huang, invited, “Segmentation enhanced pseudo-coloring on medical images,” Workshop on Intelligent Medical and Healthcare in Taiwan, Taipei, Taiwan, 2021
  10. S. L. Huang, invited, “Deep learning empowered cellular-resolution optical coherence tomography,” 7th Biomedical Imaging and Sensing Conference, Taipei, and online at BISC, Japan., 2021
  11. C. M. Liu, J. W. Li, C. N. Liu, W. C. Cheng, C. Tu, T. T. Shih, S. L. Huang, and W. H. Cheng, “Tetrahedral-Cr enhancement employing dielectric coating for higher gain of broadband Cr-doped fiber amplifiers,” Conference on Optical Fiber Communications (OFC), paper W1C.6, San Diego, CA, U.S.A., 2020
  12. S. T. Tsai, C. C. Chan, H. H. Chen, J. W. Tjiu, and S. L. Huang, “Segmentation based OCT image to H&E-like image conversion,” OSA Biophotonics Congress- Biomedical Optics (Virtue), paper M3A.5, Florida, U.S.A., 2020
  13. K. M. Chueh, Y. T. Hsieh, and S. L. Huang, “Prediction of gender from macular optical coherence tomography using deep learning,” Association for Research in Vision & Ophthalmology (ARVO) Annual Meeting (Virtue), Baltimore, MD, U.S.A., 2020
  14. T. I Yang, Y. C. Lin, Y. H. Li, H. T. Liu, S. C. Wang, K. H. Chuang, T. C. Chou, and S. L. Huang, “Single-mode Ti:sapphire crystal fiber,” Conf. on Lasers and Electro-Optics (CLEO-Virtue), paper JW2E.19, San Jose, CA, U.S.A., 2020
  15. Y. H. Li, Y. C. Lin, Y. W. Hsu, T. I Yang, and S. L. Huang, “170-nm tuning range and low-threshold Cr4+:YAG double-clad crystal fiber laser,” Conf. on Lasers and Electro-Optics (CLEO-Virtue), paper SF1P.5, San Jose, CA, U.S.A., 2020
  16. S. L. Huang, invited, “Applications of optical coherence tomography,” Netherlands-Taiwan Webinar Series Photonics Applications & Emerging Technologies(Virtue), 2020
  17. C. M. Liu, Y. H. Chen, C. N. Liu, S. L. Huang, C. Tu, and W. H. Cheng, “Employed dielectric coating for high quality Cr-doped fiber amplifiers,” OECC, paper T3-1-3, Taiwan, 2020
  18. C. Y. Kuo, Y. C. Lin, B. Y. Hsu, T. I Yang, M. Calderon-Delgado, and S. L. Huang, “Ti:sapphire crystal fiber based broadband swept laser,” OECC, paper T4-1-4, Taiwan, 2020
  19. K. M. Chueh, Y. T. Hsieh, I H. Ma, H. H. Chen, and S. L. Huang, “Differentiation of gender from macular optical coherence tomography using deep learning,” OECC, paper T8-3-2, Taiwan, 2020
  20. S. L. Huang, invited, “Deep learning empowered cellular-resolution optical coherence tomography,” 46th Annual Meeting of Taiwanese Dermatological Association, Kaohsiung, Taiwan, 2020
  21. A.-H. Huang, C. You, M. Y. Lin, J. W. Tjiu, and S. L. Huang, “Integration of OCT and Raman spectroscopy for discrimination of skin cancer cells with machine learning,” OPTIC, Taipei, Taiwan, 2020
  22. S. W. Chang, Y. H. Wu, and S. L. Huang, “Nuclei segmentation and analysis of in vivo human skin image using deep learning,” OPTIC, Taipei, Taiwan, 2020
  23. C. P. Liao, C. C. Chen-Lin, W. L. Chen, and S. L. Huang, “Corneal sub-basal nerve reconstruction and quantification with cellular-resolution optical coherence tomography,” OPTIC, Taipei, Taiwan, 2020
  24. S. L. Huang, invited, “Deep learning on cellular resolution optical coherence tomograms,” 10th Anniversary World DNA Day, Nanjing, China, 2019
  25. S. L. Huang, invited, “Glass-clad crystalline fiber based broadband light sources for optical coherence tomography,” 6th International Congress on Microscopy and Spectroscopy, Turkey, 2019
  26. Y. Y. Li, R. Soundararajan, Y. W. Lee, P. S. Yeh, and S. L. Huang, invited, “Optical coherence tomography- from micron to nanometer resolution,” GSEAMO, Dubai, UAE, 2019
  27. Y. S. Lin, M. C. Chan, S. T. Lin, S. L. Huang, and G. Y. Zhuo, “Application of two photon microscopy in ion doped crystals,” 4th International Conference on Biophotonics, Taipei, Taiwan, 2019
  28. R. Soundararajan, T. W. Hsu, M. Calderon-Delgado, S. Donati, Y. Qin, and S. L. Huang, “Spectroscopic full-field optical coherence tomography in dermatology,” 4th International Conference on Biophotonics, Taipei, Taiwan, 2019
  29. C. Y. Kuo, S. L. Huang, and S. Donati, “A 180-nm tunable Ti:sapphire crystal fiber laser for OCT applications,” 4th International Conference on Biophotonics, Taipei, Taiwan, 2019
  30. K. M. Chueh, H. L. Kao, H. H. Chen, C. T. Shun, M. Calderon-Delgado, and S. L. Huang, “Deep feature learning for contour segmentation of aorta’s intima by using sub-micron-resolution OCT,” 4th International Conference on Biophotonics, Taipei, Taiwan, 2019
  31. C. C. Lin, C. H. Shih, J. T. Lin, and S. L. Huang, “In vivo rat corneal nerve fiber quantification with cellular-resolution optical coherence tomography,” 4th International Conference on Biophotonics, Taipei, Taiwan, 2019
  32. J. T. Lin, S. T. Tsai, R. Soundararajan, T. I Yang, and S. L. Huang, “In vivo human skin image using high-speed full-field optical coherence tomography,” 4th International Conference on Biophotonics, Taipei, Taiwan, 2019
  33. B. K. Mekonnen, D. F. Tsai, T. H. Hsieh, F. L. Yang, S. K. Liaw, and S. L. Huang, “Deep learning approach for red blood cell segmentation from full-field OCT data of human skin,” 4th International Conference on Biophotonics, Taipei, Taiwan, 2019
  34. S. T. Tsai, C. C. Chan, I. T. Lin, H. H. Chen, J. W. Tjiu, and S. L. Huang, “Conversion between in vivo human skin tomographic images and H&E stained-like images via generative adversarial network,” 4th International Conference on Biophotonics, Taipei, Taiwan, 2019
  35. J. T. Lin, C. You, M. Calderon-Delgado, J. W. Tjiu, and S. L. Huang, invited, “Skin cancer detection using cellular resolution optical coherence tomography,” 24th Microoptics Conference, Toyama, Japan, 2019
  36. S. L. Huang, invited, “Cellular-resolution optical coherence tomography on clinical dermatology,” 45th Annual Meeting of Taiwanese Dermatological Association, Kaohsiung, Taiwan, 2019
  37. C. K. Chang and S. L. Huang, invited, “In vivo nuclei segmentation of human skin using optical coherence tomography,” 9th Anniversary World DNA Day, Dalian, China, 2018
  38. C. K. Chang, J. W. Tjiu, and S. L. Huang, invited, “In vivo nucleus segmentation of human skin using full-field optical coherence tomography,” OSA Biophotonics Congress- Microscopy, Histopathology and Analytics, Florida, U.S.A., 2018
  39. R. Soundararajan, C. K. Chang, P. J. Liao, Y. Y. Li, T. I Yang, Y. W. Lee, and S. L. Huang, invited, “Optical coherence tomography-from micron to nanometer resolution,” The 7th International Symposium on Next-Generation Electronics (IEEE-ISNE 2018), Taiwan, 2018
  40. S. L. Huang and J. W. Tjiu, invited, “In-vivo 3D human skin imaging using crystalline fiber based optical coherence tomography,” Global Summit & Expo on Laser Optics & Photonics, Rome, Italy, 2018
  41. Y. Y. Lee, I C. Wu, Y. W. Lee, and S. L. Huang, invited, “Optical side-coupling of laser-diode array to fiber using genetic algorithm designed sub-wavelength grating,” OECC, Korea, 2018
  42. C. K. Chang and S. L. Huang, “Quantitative analysis of keratinocytes in human skin using full-field optical coherence tomography,” Conf. on Lasers and Electro-Optics (CLEO), paper JTu2A.100, San Jose, CA, U.S.A., 2018
  43. R. Soundararajan, T. W. Hsu, M. C. Delgado, Y. Qin, and S. L. Huang, “Mirau based Ti3+:Al2O3 spectroscopic full-field optical coherence tomographic in vivo skin imaging,” Conf. on Lasers and Electro-Optics (CLEO), paper AM2J.6, San Jose, CA, U.S.A., 2018
  44. Y. T. Chen, T. W. Hsu , W. L. Chen, and S. L. Huang, “In vivo images of rat peripheral cornea and limbus with full-field optical coherence tomography,” Conf. on Lasers and Electro-Optics (CLEO), paper AM2J.4, San Jose, CA, U.S.A., 2018
  45. S. C. Wang, R. Soundararajan, P. S. Yeh, and S. L. Huang, invited, “Active glass-clad crystalline fiber based 3D tomography with sub-micron resolution,” 4th World Congress on Materials Science & Engineering, London, UK, 2018
  46. C. You, T. W. Hsu, M. Y. Lin, J. W. Tjiu, and S. L. Huang, “Cellular-resolution optical coherence tomography on 3D features of skin cancer cell lines,” 23rd Microoptics Conference, Taiwan, 2018
  47. M. Calderon-Delgado and S. L. Huang, “Processing optical coherence tomography data by means of fully convolutional neural networks,” 18th International Conference on Numerical Simulation of Optoelectronic Devices, Hong Kong, 2018
  48. Y. H. Lin, J. W. Tjiu, P. S. Yeh, and S. L. Huang, invited, “Functional optical coherence tomography on human skin with cellular resolution,” Congress of Molecular & Cell Biology, Xian, China, 2017
  49. S. L. Huang, plenary speech, “Glass-clad YAG and sapphire crystalline fibers and applications,” The 9th Symposium on Functional Glasses, Fuzhou, China, 2017
  50. S. C. Wang, T. I Yang, and S. L. Huang, invited, “Ti:sapphire crystal fibers- from laser and broadband device to applications,” EMN Optoelectronics Meeting, Victoria, Canada, 2017
  51. Y. K. Chiu, W. L. Chen, C. T. Tsai, C. H. Yang, and S. L. Huang, “A high en-face resolution AS-OCT providing quantitative ability to measure layered corneal opacities,” European Conferences on Biomedical Optics (ECBO), paper EM4D.3, Munich, Germany, 2017
  52. S. L. Huang, keynote speech, “Ti:sapphire crystal fiber- from broadband devices to biomedical imaging,” Global Summit on Laser Optics & Photonics, Valencia, Spain, 2017
  53. Y. H. Lin, R. Soundararajan, J. W. Tjiu, P. S. Yeh, and S. L. Huang, “Functional optical coherence tomography on in-vivo human skin with cellular resolution,” CLEO-Pacific Rim, OECC, and PGC, Singapore, 2017
  54. S. L. Huang, invited, “Cellular-resolution optical coherence tomography for real-time virtual biopsy on human skin,” EMN Meeting on Photonics, Budapest, Hungary, 2017
  55. S. C. Wang, T. I Yang, D. Y. Jheng, C. Y. Hsu, T. T. Yang, P. S. Yeh, and S. L. Huang, invited, “Efficient crystalline fiber lasers and broadband emissions,” SPIE Photonics West, San Francisco, CA, U.S.A., 2016
  56. S. C. Wang, T. T. Yang, T. I Yang, T. S. Ho, and S. L. Huang, “Laser-diode-pumped tunable Ti:sapphire crystal fiber laser,” Conf. on Lasers and Electro-Optics (CLEO), paper SM3Q.6, San Jose, CA, U.S.A., 2016
  57. Y. H. Lin, S. C. Wang , D. Y. Wu, Jeng-Wei Tjiu, and S. L. Huang, “Functional cellular-resolution optical coherence tomography using high-brightness crystalline fiber sources,” 25th Annual International Laser Physics Workshop (LPHYS), Yerevan, Armenia, 2016
  58. S. C. Wang, T. I Yang, P. S. Yeh, and S. L. Huang, invited, “Cladding formation of sapphire and YAG crystalline fibers,” Collaborative Conference on Crystal Growth, Donostia-San Sebastian, Spain, 2016
  59. P.-H. Lee, C.-C. Chan, S. L. Huang, A. Chen, and H. H. Chen, “Blood vessel extraction from OCT data by short-time RPCA,” Proc. IEEE Int. Conf. Image Process., pp. 394–398, 2016
  60. T. S. Rou, C. N. Liu, K. J. Jhang, W. H. Cheng, N. K. Chen, and S. L. Huang, “Study of single mode Cr-doped fibers using on-line growth system for fiber amplifiers,” OPTIC, paper 270574, Taipei, Taiwan, 2016
  61. Y. Y. Li, Y. W. Lee, I C. Wu, and S. L. Huang, “EUV spectrometer based on Fabry-Perot-like interferometer,” OPTIC, paper 270755, Taipei, Taiwan, 2016
  62. J. H. Wang, T. T. Yang, S. C. Wang, and S. L. Huang, “Efficient Ti:sapphire crystal fiber laser with 183-nm tuning range,” OPTIC, paper 270861, Taipei, Taiwan, 2016
  63. Y. Y. Li, I C. Wu, Y. W. Lee, and S. L. Huang, “Spectroscopic characterization of Si/Mo thin-film stack at extreme ultraviolet range,” OPTIC, paper 270868, Taipei, Taiwan, 2016
  64. J. Y. Wu, W. L. Jiang, S. C. Wang, and S. L. Huang, “Integration of cellular resolution OCT with Raman spectroscopy for molecular specificity,” OPTIC, paper 270828, Taipei, Taiwan, 2016
  65. C. T. Tsai, Y. K. Chiu, Y. H. Lin, C. C. Wang, C. H. Yang, and S. L. Huang, “In-vivo rat corneal measurement using Mirau-based full-field OCT,” OPTIC, paper 270836, Taipei, Taiwan, 2016
  66. T. I Yang, H. T. Liu, S. C. Wang, and S. L. Huang, “Ceramic and crystal cladding formation for Ti:sapphire crystal fiber,” OPTIC, paper 270879, Taipei, Taiwan, 2016
  67. S. C. Wang, T. T. Yang, Y. H. Lin, T. I Yang, and S. L. Huang, invited, “Ti:sapphire crystal fiber- from broadband devices to applications,” OPTIC, Taipei, Taiwan, 2016
  68. C. K. Chang, C. C. Tsai, M. T. Chien, Y. I Li, C. T. Shun, and S. L. Huang, “Web-based 3D digital pathology framework for large-mapping data scanned by FFOCT,” SPIE Medical Imaging, Florida, U.S.A., 2015
  69. T. S. Ho and S. L. Huang, “Absorptive thin film characterization by broadband optical coherence tomography,” The 2nd International Symposium on Optical Coherence Tomography for Non-Destructive Testing, Dresden, Germany, 2015
  70. C. N. Liu, Y. C. Huang, P. L. Huang, S. L. Huang, and W. H. Cheng, “Ce-doped Fibers with High Axial Resolution for Optical Coherence Tomography Applications,” Conf. on Lasers and Electro-Optics (CLEO), paper JW2A.91, San Jose, CA, U.S.A., 2015
  71. S. C. Wang, C. Y. Hsu, D. Y. Jheng, T. S. Ho, T. I Yang; Y. Xu, and S. L. Huang, “Glass-clad Ti:sapphire crystal fiber laser,” Conf. on Lasers and Electro-Optics (CLEO), paper SM3L.1, San Jose, CA, U.S.A., 2015
  72. D. Y. Jheng, S. C. Wang, T. S. Ho, T. I Yang, K. Y. Hsu, and S. L. Huang, invited, “Broadband tunable laser and high-brightness light sources,” The 4th International Symposium on Next-Generation Electronics (IEEE-ISNE 2015), paper T1-1, Taiwan., 2015
  73. T. S. Ho, J. W. Tjiu, M. T. Chien, D. Y. Wu, C. K. Chang, P. S. Yeh, Y. I Li, C. T. Shun, and S. L. Huang, invited, “Functional optical coherence tomography on human skin with cellular resolution,” The 3rd International Conference on BioPhotonics, Florence, Italy., 2015
  74. J. W. Tjiu, M. T. Chien, D. Y. Wu, Y. I Li, C. T. Shun, and S. L. Huang, invited, “Tissue segmentation by discriminant analysis with cellular resolution,” Digital Pathology Congress Asia, Kuala Lumpur, Malaysia, 2015
  75. S. P. Yang, Y. Y. Li, I C. Wu, B. S. Tsai, Y. W. Lee, and S. L. Huang, “Efficient side-coupling of LD array into 250-μm double-clad fiber using sub-wavelength grating,” OPTIC, paper 2015-FRI-P0501-P012, Hsinchu, Taiwan, 2015
  76. D. Ji, M. T. Chien, M. Y. Lin, J. W. Tjiu, and S. L. Huang, “Evaluation of scattering features for tissue segmentation using an OCT with submicron resolution,” OPTIC, paper 2015-SAT-S0605-O001, Hsinchu, Taiwan, 2015
  77. Y. K. Chiu, S. T. Chen, C. C. Wang, C. H. Yang, S. C. Wang, and S. L. Huang, “In vivo rat cornea characterization using a high resolution OCT,” OPTIC, paper 2015-SAT-P0602-P010, Hsinchu, Taiwan, 2015
  78. Y. H. Lin, D. Y. Wu, T. T. Yang, S. C. Wang, and S. L. Huang, “Ti:sapphire crystal fiber based full-field OCT on dermis/epidermis junction measurement,” OPTIC, paper 2015-SAT-S0603-O005, Hsinchu, Taiwan, 2015
  79. S. L. Huang, invited, “Toward optical biopsy: translation from benchtop to the bedside,” IMEC Technology Forums, Taiwan, 2015
  80. C. C. Tsai, T. S. Ho, C. K. Chang, K. Y. Hsu, M. Y. Lin, J. W Tjiu, and S. L. Huang, invited, “Cellular-resolution optical coherence tomography,” Latin American Optics and Photonics (LAOP), Cancun, Mexico, 2014
  81. S. L. Huang, invited, “In-vivo optical coherence tomography on human skin with cellular resolution,” Medica- Taiwan Medical Electronics and Nanotechnology Forum, Dusseldorf, Germany, 2014
  82. K. Y. Hsu, D. Y. Jheng, S. C. Wang, T. S. Ho, T. I Yang, and S. L. Huang, and P. S. Yeh, invited, “Crystal fibers based broadband emissions and lasers,” IEEE Photonics Conference (IPC), San Diego, U.S.A., 2014
  83. C. C. Tsai, C. K. Chang, K. Y. Hsu, T. S. Ho, Y. T. Wang, M. Y. Lin, J. W. Tjiu, and S. L. Huang, “In vivo 3-D cellular level imaging using Mirau-based full-field optical coherence tomography on skin tissue,” Biomedical Optics (BIOMED), paper BW4A.2, Miami, U.S.A., 2014
  84. G. L. Cheng, W. L. Wang, C. W. Chuang, Y. C. Huang, J. S. Wang, S. L. Huang, and W. H. Cheng, “Clad Cr-doped crystalline core fiber by high index glass,” OPTIC, paper THU-P0201-P001, Chung-Li, Taiwan., 2014
  85. S. Y. Wang, C. N. Liu, Y. C. Huang, T. L. Chou, S. L. Huang, and W. H. Cheng, “Study of Ce-doped fibers with rod-in-tube by drawing tower technique,” OPTIC, paper SAT-P0602-P004, Chung-Li, Taiwan, 2014
  86. K. Y. Hsu, D. Y. Jheng, S. C. Wang, S. L. Huang, Y. W. Lee, P. S. Yeh, and M. Dubinskii, invited, “Toward single-mode crystalline fiber laser and amplifier,” CLEO-PR & OECC/PS, paper WS1-2, Kyoto, Japan, Jul. 2013
  87. T. S. Ho, C. C. Tsai, Y. T. Wang, K. Y. Hsu, D. Y. Jheng, and S. L. Huang, invited, “Broadband crystalline fiber based light sources for non-invasive sensing,” 6th IEEE International Conference on Advanced Infocomm Technology (ICAIT), paper SU-C-2, Hsinchu, Taiwan, Jul. 2013
  88. W. H. Cheng, Y. C. Huang, S. L. Huang, H. Taga, Y. J. Chiu, invited, “300-nm broadband chromium-doped fiber amplifiers,” Conference on Optical Fiber Communications (OFC), paper OTh4C.4, Anaheim, CA, U.S.A., Mar. 2013
  89. C. N. Liu, Y. C. Huang, Y. S. Lin, J. S. Wang, F. Y. Lo, W. L. Wang, T. L. Chou, P. L. Huang, S. L. Huang, W. H. Cheng, “Broadband fluorescence enhancement in Cr-doped fibers,” Conference on Optical Fiber Communications (OFC), paper JW2A.19, Anaheim, CA, U.S.A., Mar. 2013
  90. K. Y. Hsu, C. C. Tsai, D. Y. Jheng, T. S. Ho, and S. L. Huang, “Glass-clad crystalline fibers based broadband light sources,” First International Symposium on Optical Coherence Tomography for Non-Destructive Testing, Linz, Austria, Feb. 2013
  91. K. Y. Hsu, D. Y. Jheng, S. C. Wang, C. C. Tsai, T. S. Ho, S. L. Huang, and P. S. Yeh, invited, “Crystalline fiber based broadband light sources,” Asia Communications and Photonics Conference and International Conference on Information Photonics and Optical Communications (A, paper ATh3D.6, Beijing, China, 2013
  92. 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, paper TuA1-5, Japan, 2013
  93. K. Y. Hsu, M. H. Yang, D. Y. Jheng, S. L. Huang, K. Mennemann, V. Dietrich, and M. Dubinskii, “Single crystalline YAG-core fiber with a lanthanum dense flint glass cladding,” CLEO-PR & OECC/PS, paper ThA2-5, Japan, 2013
  94. C. C. Tsai, M. Y. Lin, C. K. Chang, J. W. Tjiu, and S. L. Huang, “Epidermal cell classification via Mirau-based full-field optical coherence tomography,” CLEO-PR & OECC/PS, paper WJ4-3, Japan, 2013
  95. F. Y. Lo, C. N. Liu, Y. C. Huang, W. L. Wang, Y. S. Lin, T. L. Chou, Pi-Ling Huang, S. L. Huang, and W. H. Cheng, “Fabrication of Ce-doped fibers by using rod-in-tube technique with drawing tower,” CLEO-PR & OECC/PS, paper WS3-2, Japan, 2013
  96. C. C. Lai, S. L. Huang, S. H. Wang, W. C. Ho, S. K. Liu, and C. N. Tsai, “Strongly enhancing Cr4+ broadband emissions in strained crystalline core of Cr:YAG doubled-clad fiber amplifier,” CLEO-PR & OECC/PS, paper ThA1-5, Japan, 2013
  97. N. C. Cheng, C. C. Lai, J. W. Tjiu, M. Y. Lin, S. L. Huang, and D. W. Huang, “Identification of malignant melanoma by three-dimensional single-cell tomography,” CLEO-PR & OECC/PS, paper WPJ-12, Japan, 2013
  98. P. Y. Lai, C. L. Chang , S. L. Huang, and S. H. Chen, “Influences of amplified spontaneous emission on fiber laser amplifier chain,” CLEO-PR & OECC/PS, paper WPA-29, Japan, 2013
  99. S. L. Huang, invited, “Toward clinical 3D and label-free cell tomography,” PSC Annual Meeting, Palo Alto, U.S.A., 2013
  100. C. C. Tsai, Y. T. Wang, T. S. Ho, M. Y. Lin, J. W. Tjiu, K. Y. Hsu, C. K. Chang, S. L. Huang, “Mirau-based full-field time-domain optical coherence tomography using Ce3+:YAG crystal fiber,” European Conferences on Biomedical Optics (ECBO), paper ETu1B.4, Munich, Germany, 2013
  101. N. C. Cheng, C. C. Tsai, T. S. Ho, M. Y. Lin, J. W. Tjiu, and S. L. Huang, “Non-invasive single cell tomography on skin cells,” Optics in the Life Sciences, paper JT2A.7, Kona, Hawaii, U.S.A., 2013
  102. F. Y. Lo, C. N. Liu, Y. C. Huang, J. S. Wang, S. L. Huang, and W. H. Cheng, “Study of Cr-doped fibers using powder-in-tube with redrawing technique,” OPTIC, paper PB-FR -I-(4)-2, Taipei, Taiwan, Dec. 2012
  103. C. W. Chuang, W. L. Wang, L. W. Liu, S. L. Huang, J. S. Wang, Y. C. Huang, P. L. Huang, and W. H. Cheng, “Fabrication and optical property of few-mode Cr4+:YAG double- clad crystal fiber,” OPTIC, paper PB-SA-II-(1)-6, Taipei, Taiwan, Dec. 2012
  104. Y. P. Lai, P. Y. Lai, C. L. Chang, S. H. Chen, and S. L. Huang, “A simplified spherical-symmetry simulation model for 13.5-nm EUV generation from laser-produced plasmas,” OPTIC, paper PC-FR-I-(2)-1, Taipei, Taiwan, Dec. 2012
  105. P. Y. Lai, C. L. Chang, S. L. Huang, and S. H. Chen, “Numerical study of characteristic pulsed amplification in ytterbium-doped fiber amplifiers,” OPTIC, paper PC-FR-I-(4)-1, Taipei, Taiwan, Dec. 2012
  106. 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,” OPTIC, paper PC-SA-II-(4)-1, Taipei, Taiwan, Dec. 2012
  107. C. N. Tsai, S. L. Huang, W. C. Ho, C. C. Lai, D. Y. Jheng, and C. T. Hsieh, “Effects of perimeter deposition and annealing for Cu ions in-diffusion in Cr4+:YAG single crystal fiber,” OPTIC, paper PC-SA-II-(4)-3, Taipei, Taiwan, Dec. 2012
  108. C. L. Chang, P. Y. Lai, Y. Y. Li, S. H. Chen, and S. L. Huang, “A high peak power nanosecond ytterbium-doped all fiber MOPA system at high repetition rate,” OPTIC, paper OC-FR-BL3-(2)-1, Taipei, Taiwan., Dec. 2012
  109. C. C. Lai, P. Yeh, S. C. Wang, D. Y. Jheng, C. N. Tsai, and S. L. Huang, “Studies of localized radial strain distribution and its impact on the broadband emission cross section of Cr4+:YAG crystalline-core fiber,” OPTIC, paper OC-SA-BL3-(4)-4, Taipei, Taiwan, Dec. 2012
  110. C. C. Tsai and S. L. Huang, “Ultrahigh resolution 3-D height and refractive index profiles simultaneously by Mirau-based optical coherence tomography,” OPTIC, paper OE-SA-MD6-(6)-5, Taipei, Taiwan, Dec. 2012
  111. N. C. Cheng, T. H. Hsieh, Y. T. Wang, C. C. Lai, M. Y. Lin, D. W. Huang, J. W. Tjiu, and S. L. Huang, “Discriminating keratinocytes and fibroblasts by parametric three- dimensional single-cell tomography,” OPTIC, paper OF-FR-MD3-(1a)-6, Taipei, Taiwan, Dec. 2012
  112. C. C. Tsai and S. L. Huang, “Inner image of housefly compound eye by Mirau based Ultra-high spatial resolution optical coherence tomography,” OPTIC, paper OF-SA-MD4 -(5)-1, Taipei, Taiwan, Dec. 2012
  113. T. S. Ho, C. C. Tsai, and S. L. Huang, “Simultaneous measurement of complex refractive index and thickness of absorptive film by spectroscopic optical coherence tomography,” OPTIC, paper OG-FR-BL5-(1)-4, Taipei, Taiwan, Dec. 2012
  114. K. Y. Hsu, D. Y. Jheng, S. C. Wang, T. S. Ho, Y. W. Lee, and S. L. Huang, “Toward single-mode crystalline fiber lasers,” Advanced Laser Material Development in the Asia-Pacific Rim, invited, Adelaide, Australia, Nov. 2012
  115. K. Y. Hsu, S. C. Wang, D. Y. Jheng, T. S. Ho, C. C. Lai, S. L. Huang, and P. S. Yeh, “Broadband emission from diode-laser-pumped Ti:sapphire crystal fibers,” 32nd Progress in Electromagnetics Research Symposium (PIERS), paper 3A9, Moscow, Russia, 2012
  116. J. Y. Yi, Y. W. Fan, and S. L. Huang, “Short-wavelength Yb:fiber laser,” OptoElectronics and Communications Conference (OECC), paper 3C2-5, Korea, 2012
  117. D. Y. Jheng, C. C. Lai, K. Y. Hsu, Y. S. Lin, Y. J. Chen, and S. L. Huang, “External-cavity Cr4+:YAG double-clad crystal fiber laser,” Conf. on Lasers and Electro-Optics (CLEO), paper CF2N.4, San Jose, CA, U.S.A., 2012
  118. K. Y. Hsu, M. H. Yang, D. Y. Jheng, C. C. Lai, S. L. Huang, K. Mennemann, and V. Dietrich, “Few-mode YAG crystal fiber cladded by high-index glass,” Conf. on Lasers and Electro-Optics (CLEO), paper CTh4G.5, San Jose, CA, U.S.A., 2012
  119. D. Y. Jheng, K. Y. Hsu, and S. L. Huang, “Impact of angular deviation of specular reflection on few-mode fiber near Brewster angle cut,” Conf. on Lasers and Electro-Optics (CLEO), paper JW2A.71, San Jose, CA, U.S.A., 2012
  120. C. W. Huang, C. L. Chang, D. W. Huang, and S. L. Huang, “Distributed 100-W side launching by using single laser diode stack,” Conf. on Lasers and Electro-Optics (CLEO), paper JW2A.65, San Jose, CA, U.S.A., 2012
  121. N. C. Cheng, T. H. Hsieh, C. C. Lai, J. W. Tjiu, M. Y. Lin, D. W. Huang, and S. L. Huang, “Apoptosis detection at cellular level by quantitative three-dimensional imaging,” Conf. on Lasers and Electro-Optics (CLEO), paper JTh2A.2, San Jose, CA, U.S.A., 2012
  122. Y. T. Wang, M. K. Tsai, C. K. Chang, C. C. Tsai, and S. L. Huang, “Numerical dispersion compensation for optical coherence tomography on 3D microstructure,” Conf. on Lasers and Electro-Optics (CLEO), paper JW4A.122, San Jose, CA, U.S.A., 2012
  123. C. C. Lai, K. Y. Hsu, C. W. Huang, D. Y. Jheng, S. C. Wang, S. L. Lin, M. H. Yang, D. W. Huang, and S. L. Huang, invited, “Glass-clad single crystalline fiber lasers,” SPIE Defense, Security, and Sensing, Baltimore, MD, U.S.A, 2012
  124. C. L. Chang, Y. Y. Li, Y. P. Lai, S. L. Lin, Y. W. Lee, and S. L. Huang, “Development of a high repetition rate 4-stage fiber MOPA for EUV generation,” International Symposium on Physics and Applications of Laser Dynamics, invited, Tainan, Taiwan, 2012
  125. D. Y. Jheng, K. Y. Hsu, Y. J. Chen, and S. L. Huang, “Design on double-clad crystal fiber based external cavity laser,” International Photonics Conference (IPC), paper B-FR-II3-1, Tainan, Taiwan, 2011
  126. C. N. Liu, Y. C. Huang, K. M. Chu, W. L. Wang, T. L. Chou, J. S. Wang, S. L. Huang, and W. H. Cheng, “Study of Cr- doped fibers with powder-in-tube by drawing-tower technique,” International Photonics Conference (IPC), paper B-TH-II2-1, Tainan, Taiwan, 2011
  127. 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), paper C-SA-III6-3, Tainan, Taiwan, 2011
  128. Y. T. Wang, M. K. Tsai, C. K. Chang, C. C. Tsai, and S. L. Huang, “Resolution enhancement with numerical dispersion compensation in optical coherence tomography,” International Photonics Conference (IPC), paper B-TH-II2-1, Tainan, Taiwan, 2011
  129. C. N. Tsai, S. L. Huang, S. H. Wang, C. C. Lai, C. H. Zhou, W. C. Ho, and J. T. Sie, “Effect of strained core in Cr:YAG doubled-clad crystal fiber with perimeter deposition and annealing,” International Photonics Conference (IPC), paper PA-FR-15, Tainan, Taiwan, 2011
  130. T. S. Ho, C. K. Chang, N. C. Cheng, K. Y. Hsu, D. Y. Jheng, Y. T. Wang, Y. S. Lin, C. C. Lai, S. C. Wang, S. L. Huang, and J. W. Tjiu, invited, “Glass-clad crystal fibers based optical coherence tomography,” Workshop on Fibre Optics Passive Components (WFOPC), Montreal, Canada., 2011
  131. T. S. Ho, N. C. Cheng, C. K. Chang, K. Y. Hsu, D. Y. Jheng, Y. T. Wang, Y. S. Lin, C. C. Lai, S. C. Wang, S. L. Huang, and J. W. Tjiu, invited, “Glass-clad crystal fibers based ultrahigh resolution optical coherence tomography,” OptoElectronics and Communications Conference (OECC), Kaohsiung, Taiwan, 2011
  132. 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, invited, “Glass-clad crystal fibers based functional optical coherence tomography,” BioPhotonics, Parma, Italy, 2011
  133. Y. S. Lin, D. Y. Jheng, K. Y. Hsu, C. N. Tsai, and S. L. Huang, “Ce3+,Sm3+:YAG Double-clad crystal fiber broadband light source,” Conf. on Lasers and Electro-Optics (CLEO), paper CTuI7, Baltimore, MD, U.S.A., 2011
  134. C. W. Huang, D. W. Huang, C. L. Chang, D. Y. Jheng, K. Y. Hsu, C. H. Kuan, and S. L. Huang, “Demonstration of side coupling between high power laser diode array and double-clad fiber using sub-wavelength grating,” Conf. on Lasers and Electro-Optics (CLEO), paper JWA41, Baltimore, MD, U.S.A., 2011
  135. C. N. Tsai, S. L. Huang, S. H. Wang, Y. S. Lin, C. H. Zhou, and W. C. Ho, “Perimeter deposition and annealing for increasing Cr4+ concentration in ultrabroadband Cr:YAG fiber amplifier,” Conf. on Lasers and Electro-Optics (CLEO), paper JWA21, Baltimore, MD, U.S.A., 2011
  136. C. W. Huang, C. L. Chang, D. Y. Jheng, K. Y. Hsu, S. L. Huang, and D. W. Hunag, “Symmetric side pump 10-W ytterbium-doped fiber laser by sub-wavelength grating coupler,” Conf. on Lasers and Electro-Optics/Europe (CLEO Europe), paper CJ.P.3, Munich, Germany, 2011
  137. Y. C. Huang, J. S. Wang, K. M. Chu, T. C. Lin, W. L. Wang, T. L. Chou, S. M. Yeh, S. L. Huang, and W. H. Cheng, “Fabrication and characteristics of Cr-doped fibers employing powder-in-tube technique,” Conference on Optical Fiber Communications (OFC), paper OWS1, Los Angeles, CA, U.S.A., 2011
  138. W. L. Wang, J. S. Wang, Y. C. Huang, H. H. Kuo, S. L. Huang, and W. H. Cheng, “Few-mode Cr-doped double-clad crystalline fibers,” Conference on Optical Fiber Communications (OFC), paper OWS2, Los Angeles, CA, U.S.A., 2011
  139. M. K. Tsai, C. C. Tsai, T. H. Chen, Y. S. Lin, C. K. Chang, N. C. Cheng, W. Y. Li, C. K. Wei, and S. L. Huang, “Patterned structure analysis in liquid crystal display panel by ultrahigh resolution optical coherence tomography,” Optics and Photonics Taiwan, paper OPT7-O-02, Tainan, Taiwan, 2010
  140. A. Lee, T. H. Chen, C. C. Tsai, Y. S. Lin, C. K. Chang, N. C. Cheng, C. C. Huang, and S. L. Huang, “Ultrahigh resolution polarization-sensitive optical coherence tomography on liquid crystal device,” Optics and Photonics Taiwan, paper OPT7-O-03, Tainan, Taiwan, 2010
  141. D. M. Kong, S. M. Yeh, P. H. Ho, K. Y. Huang, C. Y. Wang, S. L. Huang, and W. H. Cheng, “Double Signal Pass and Bi-directionally pumped Optical Amplifier Based on Cr4+: YAG Double-clad Crystal Fiber,” Optics and Photonics Taiwan, paper OPT2-P-063, Tainan, Taiwan, 2010
  142. C. C. Tsai, K. Y. Hsu, Y. S. Lin, D. Y. Jheng, T. S. Ho, S. C. Pei, C. K. Chang, Y. T. Wang, N. C. Cheng, P. L. Huang, and S. L. Huang, invited, “Glass-clad crystal fibers based functional optical coherence tomography,” Optics and Photonics Taiwan, Tainan, Taiwan, 2010
  143. S. L. Huang, invited, “From glass-clad crystal fiber to functional 3D imaging,” NSC Foresight Workshop on Creativity and Innovation, Taipei, Taiwan, 2010
  144. 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, invited, “Glass-clad crystal fibers based ultrahigh resolution optical coherence tomography,” IEEE Photonics Society Summer Topical Meeting on Novel Waveguiding, Structures and Phenomena, Riviera Maya, Mexico, 2010
  145. S. L. Huang, key note speech, “Ultrahigh-resolution optical coherence tomography with high image fidelity,” Electronic Technology Symposium, Kaohsiung, 2010
  146. C. C. Tsai, Y. S. Lin, T. H. Chen, Y. T. Wang, W. Chang, P. K. Hsu, Y. H. Chang, E. Sun, and S. L. Huang, “Ultrahigh resolution optical coherence tomography via Ce3+:YAG double-clad crystal fiber source,” Conf. on Lasers and Electro-Optics (CLEO), paper CThT3, San Jose,CA, U.S.A., 2010
  147. K. Y. Hsu, D. Y. Jheng, Y. H. Liao, M. H. Yang, and S. L. Huang, “Diode-laser-pumped Ti:sapphire double-clad crystal fiber broadband light source,” Conf. on Lasers and Electro-Optics (CLEO), paper CMM3, San Jose,CA, U.S.A., 2010
  148. S. C. Pei, T. S. Ho, C. C. Tsai, Ting-Hao Chen, A. H. Kung, and S. L. Huang, “Non-invasive study of domain boundary in periodically poled ferroelectrics using ultrahigh resolution optical coherence tomography,” Conf. on Lasers and Electro-Optics (CLEO), paper CMG6, San Jose,CA, U.S.A., 2010
  149. C. W. Huang, D. W. Huang, C. L. Chang, D. Y. Jheng, and S. L. Huang, “Efficient coupling between laser diode array and double-clad fiber using a sub-wavelength grating,,” 7th Taiwan/U.S. Air Force Nanoscience Workshop, Yi Lan, Taiwan., 2010
  150. C. C. Tsai, Y. T. Wang, Y. S. Lin, W. Chang, S. L. Huang, P. K. Hsu, K. Y. Hsu, D. Y. Jheng, K. Y. Huang, and T. H. Chen, “Ce3+,Sm3+:YAG double-clad crystal fiber based ultra-high resolution optical coherence tomography,” Optics and Photonics Taiwan, paper FO119, Taipei, Taiwan, 2009
  151. C. C. Lai, C. P. Ke, S. K. Liu, and S. L. Huang, “Highly efficient, low-threshold Yb3+:YAG-silica fiber laser,” Optics and Photonics Taiwan, paper CO113, Taipei, Taiwan, 2009
  152. C. C. Lai, Y. S. Lin, K. Y. Huang, S. C. Wang, and S. L. Huang, “Study of nanospectroscopy and nanostructure on Cr:YAG double-clad crystal fiber,” Optics and Photonics Taiwan, paper AP019, Taipei, Taiwan, 2009
  153. Y. S. Lin, C. W. Ting, Y. C. Huang, W. L. Wang, J. S. Wang, S. Y. Huang, S. L. Huang and W. H. Cheng, “Microstructures study of Cr-doped fibers growth by drawing tower,” Optics and Photonics Taiwan, paper AP021, Taipei, Taiwan, 2009
  154. H. E. Chang, S. L. Huang, and J. Y. Yi, “Simulation on short-wavelength Yb:fiber laser,” Optics and Photonics Taiwan, paper CO120, Taipei, Taiwan, 2009
  155. C. L. Chang, P. Y. Chen, C. W. Lan, W. H. Cheng, and S. L. Huang, “Heat transfer and fluid flow for growing yttrium aluminum garnet single-crystal fibers in two dimensional simulations,” Optics and Photonics Taiwan, paper AO205, Taipei, Taiwan, 2009
  156. P. Y. Chen, C. L. Chang, K. Y. Huang, C. W. Lan, W. H. Cheng, and S. L. Huang, “Interface shapes of miniature molten zone formed using the laser-heated pedestal growth method,” Optics and Photonics Taiwan, paper AO123, Taipei, Taiwan, 2009
  157. 涂智堯, 張銘仁, 高慧玲, 許光裕, 廖奕涵, 黃升龍, 陳至信, “以二氧化鈦薄膜形成雙纖衣Cr4+:YAG 晶體光纖的內纖衣,” Optics and Photonics Taiwan, paper EP044, Taipei, Taiwan, 2009
  158. 王先佑, 葉秉慧, 許光裕, 鄭東祐, 黃升龍, “單纖衣摻鉻鎂橄欖石晶體光纖製作與特性量測,,” Optics and Photonics Taiwan, paper CP006, Taipei, Taiwan, 2009
  159. 王維倫, 黃翊中, 陳威安, 呂昱寬, 王朝盛, 黃升龍, 鄭木海, “雙層纖衣摻鉻晶體光纖於熱效應影響下之螢光特性,” Optics and Photonics Taiwan, paper BP043, Taipei, Taiwan, 2009
  160. 林廷謙, 黃翊中, 王維倫, 呂昱寬, 王柏荃, 朱奎銘, 林信宏, 王朝盛, 郭馨徽, 黃升龍, 鄭木海, “摻鉻單模光纖之製程,” Optics and Photonics Taiwan, paper BO124, Taipei, Taiwan, 2009
  161. C. W. Huang, C. L. Chang, D. W. Huang, and S. L. Huang, invited, “側向激發之光纖光柵在雙纖衣光纖雷射之研究,” 兩岸光學微結構材料與雷射技術研討會, Taipei, Taiwan, 2009
  162. C. W. Huang, C. L. Chang, D. Y. Jheng, D. W. Huang, and S. L. Huang, “Analysis of transmission-grating side coupler for large-mode-area double-clad fiber laser,” Sir Mark Oliphant Nanophotonics (SMONP), paper nanomaterials and nano-op, Melbourne ,Australia., 2009
  163. Y. T. Wang, C. C. Tsai, K. Y. Hsu, Y. S. Lin, D. Y. Jheng, K. Y. Huang, S. L. Huang, and P. S. Yeh, invited, “Glass-clad crystal fiber based ultra-high resolution optical coherence tomography,” Conference on Lasers and Electro-Optics, Pacific Rim, paper WG4-1, Shanghai,China, 2009
  164. K. Y. Hsu, C. C. Lai, Y. T. Wang, C. C. Tsai, Y. S. Lin, K. Y. Huang, P. S. Yeh, and S. L. Huang, invited, “Cr doped crystal fibers for laser, optical amplifier, and biophotonic applications,” International Conference on Materials for Advanced Technologies (ICMAT), Singapore, 2009
  165. K. Y. Hsu, D. Y. Jheng, M. H. Yang, Y. S. Lin, K. Y. Huang, C. T. Lin, S. R. Lin, and S. L. Huang, “Dual-pump double-pass double-clad Cr4+:YAG crystal fiber broadband ASE light source,” Conf. on Lasers and Electro-Optics (CLEO), paper CThN5, Baltimore,MD,U.S.A., 2009
  166. Y. T. Wang, P. J. Liao, K. Y. Huang, P. K. Hsu, and S. L. Huang, “Ultrahigh resolution optical coherence tomography using Cr4+:YAG fiber,” Conf. on Lasers and Electro-Optics (CLEO), paper JWA51, Baltimore,MD,U.S.A., 2009
  167. 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, “High-Brightness White Light Point Source Using Ce,Sm:YAG Crystal Fiber,” Conf. on Lasers and Electro-Optics (CLEO), paper JThE39, Baltimore,MD,U.S.A., 2009
  168. C. C. Lai, Y. S. Lin, K. Y. Huang, C. W. Ting, and S. L. Huang, “Effect of Nano-Crystalline Structures in the Interface on Double-clad Cr4+:YAG Crystal Fiber,” Conf. on Lasers and Electro-Optics (CLEO), paper JTuD27, Baltimore,MD,U.S.A., 2009
  169. C. C. Lai, K. Y. Huang, H. J. Tsai, Z. W. Lin, K. D. Ji, and S. L. Huang, “Ultralow-threshold room-temperature continuous-wave double-clad Cr4+:YAG crystal fiber laser,” Conf. on Lasers and Electro-Optics (CLEO), paper CThL3, San Jose, CA, U.S.A, 2008
  170. C. N. Tsai, Y. S. Lin, K. Y. Huang, Y. S. Lin, C. C. Lai, and S. L. Huang, “Study of the side deposition enhanced Cr4+ concentration in Cr4+:YAG crystal fiber as an ultra broadband amplified spontaneous emitter,” Conf. on Lasers and Electro-Optics (CLEO), paper CTuMM6, San Jose, CA, U.S.A, 2008
  171. S. C. Pei, D. H. Sun, C. H. Hsu, T. S. Ho, F. J. Kao, S. L. Huang, and A. H. Kung, “Second-harmonic generation in periodically poled lithium tantalate crystal fiber,” Conf. on Lasers and Electro-Optics (CLEO), paper CWG5, San Jose, CA, U.S.A, 2008
  172. C. L. Chang, D. Y. Jheng, C. W. Huang, K. Y. Hsu, J. Y. Lin, S. Tsau, C. Hu, J. Horng, and S. L. Huang, “The study of embedded reflection gratings for distributively pumped ytterbium-doped fiber lasers,” Conf. on Lasers and Electro-Optics (CLEO), paper JThA44, San Jose, CA, U.S.A, 2008
  173. C. C. Lai, K. Y. Huang, Y. S. Lin, and S. L. Huang, “Strain analysis on the interface of double-clad Cr4+:YAG crystal fibers,” Conf. on Lasers and Electro-Optics (CLEO), paper JTuA88, San Jose, CA, U.S.A, 2008
  174. Y. S. Lin, C. N. Tsai, P. J. Liao, D. Y. Jheng, and S. L. Huang, “Crystal fiber based white light source using Ce,Sm:YAG as the active medium,” Conf. on Lasers and Electro-Optics (CLEO), paper JThA74, San Jose, CA, U.S.A, 2008
  175. Y. T. Wang, K. Y. Huang, and S. L. Huang, “Ultrahigh-resolution optical low coherence reflectometry with a wideband Cr4+:YAG amplified spontaneous emission light source,” Workshop on Fibres and Optical Passive Components (WFOPC), paper F1A-5, Taipei, Taiwan, 2007
  176. K. Y. Hsu, K. Y. Huang, C. C. Lai, Y. T. Wang, Z. W. Lin, C. N. Tsai, and S. L. Huang, invited, “Broadband ASE and laser based on chromium-doped double-clad crystal fibers,” Optics and Photonics Taiwan, paper C-1, invited paper, Tai-Chung, Taiwan, 2007
  177. Z. W. Lin, C. C. Lai, K. Y. Huang, H. J. Tsai, K. D. Ji, and S. L. Huang, “Low-threshold room-temperature continuous-wave double-clad Cr4+:YAG crystal fiber laser,” Optics and Photonics Taiwan, paper CO-010, Tai-Chung, Taiwan, 2007
  178. C. C. Lai, K. Y. Huang, Y. S. Lin, and S. L. Huang, “Study on the core/cladding interface in double-clad Cr4+:YAG crystal fibers,” Optics and Photonics Taiwan, paper AO-027, Tai-Chung, Taiwan, 2007
  179. C. L. Chang, D. Y. Jheng, K. Y. Hsu, J. Y. Lin, C. W. Huang, S. Tsau, C. Hu, J. Horng, and S. L. Huang, “Evaluation of grating fiber coupler for cladding-pumped ytterbium- doped fiber laser,” Optics and Photonics Taiwan, paper CP-010, Tai-Chung, Taiwan, 2007
  180. C. N. Tsai, Y. S. Lin, K. Y. Huang, Y. S. Lin, C. C. Lai, and S. L. Huang, “The side deposition enhanced Cr4+ concentration in YAG crystal fibers,” Optics and Photonics Taiwan, paper CP-024, Tai-Chung, Taiwan, 2007
  181. L. M. Lee, S. C. Pei, T. M. Tai, D. H. Sun, A. H. Kung, and S. L. Huang, invited, “Growth of ferroelectric crystal fibers for wavelength conversion,” Conference on Lasers and Electro-Optics, Pacific Rim, paper ThE1-1, invited paper, Seoul, Korea, 2007
  182. S. L. Huang, K. Y. Huang, K. Y. Hsu, C. N. Tsai, and P. S. Yeh, invited, “Broadband emission and amplification from Chromium doped fibers,” Asia-Pacific Optical Communications (APOC), invited paper, Wuhan, China, 2007
  183. D. H. Sun, S. C. Pei, T. M. Tai, A. H. Kung, and S. L. Huang, invited, “Growth and Applications of Lithium Tantalate Crystal Fibers,” 兩岸光學微結構材料與雷射技術研討會, invited paper, Nanjing, China, 2007
  184. S. L. Huang, K. Y. Huang, K. Y. Hsu, and C. N. Tsai, invited, “Broadband light source from Chromium doped fibers,” International Symposium on Next-Generation Lightwave Communications, paper T-5, invited paper, Hong Kong, 2007
  185. J. Y. Yi, K. Y. Huang, C. C. Lai, H. Peng, L. H. Chen, J. C. Chen, and S. L. Huang, “Compact multi-pass ring laser using LHPG-grown Yb:YAG crystal fiber,” Conf. on Lasers and Electro-Optics (CLEO), paper CFJ2, Baltimore, MD, U.S.A, 2007
  186. S. C. Pei, L. M. Lee, D. F. Lin, M. C. Tsai, D. H. Sun, and S. L. Huang, “Tunable blue/green light source by self-cascaded x(2) nonlinearity in ZnO:PPLN crystal fiber,” Conf. on Lasers and Electro-Optics (CLEO), paper CThC4, Baltimore, MD, U.S.A, 2007
  187. K. Y. Huang, K. Y. Hsu, R. C. Shr, Y. D. Huang, S. L. Huang, and Y. S. Lin, “Uniform growth of 10-micron-core double-clad Cr4+:YAG crystal fiber,” Conf. on Lasers and Electro-Optics (CLEO), paper JTuA102, Baltimore, MD, U.S.A, 2007
  188. T. M. Tai, S. C. Pei, L. M. Lee, S. L. Huang, and A. H. Kung, “Fabrication of PPLT crystal fiber by the method of laser heated pedestal growth,” Conf. on Lasers and Electro-Optics (CLEO), paper JTuA117, Baltimore, MD, U.S.A, 2007
  189. C. C. Lai, Y. S. Lin, C. N. Tsai, J. C. Chen, S. L. Huang, and P. Shen, “Microstructure analysis on the YAG core of Cr4+ doped fiber amplifier,” OptoElectronics and Communications Conference (OECC), paper 3P-002, Kaohsiung, Taiwan, Jul. 2006
  190. J. C. Chen, Y. S. Lin, C. N. Tsai, K. Y. Huang, W. Z. Su, R. C. Shr, F. J. Kao, Y. S. Lin, and S. L. Huang, “400-nm-bandwidth emission from Cr-doped alumino-silicate fiber,” OptoElectronics and Communications Conference (OECC), paper 6D2-5, Kaohsiung, Taiwan, Jul. 2006
  191. Y. C. Huang, Y. K. Lu, J. C. Chen, Y. C. Hsu, Y. M. Huang, H. M. Yang, M. T. Sheen, S. L. Huang, T. Y. Chang, and W. H. Cheng, “Fabrication and performance of Cr-doped fibers by drawing tower,” OptoElectronics and Communications Conference (OECC), paper 6D2-2, Kaohsiung, Taiwan, Jul. 2006
  192. J. C. Chen, K. Y. Huang, C. N. Tsai, Y. S. Lin, and S. L. Huang, “Broadband emission from glass-clad chromium doped Fiber,” IEEE/LEOS summer topical meeting on Fibers for Lasers, Amplifiers and Nonlinear Applications, paper WC1.2, Quebec City, Canada, Jul. 2006
  193. Y. J. Huo, S. F. He, W. Q. Liu, and S. L. Huang, “Multi-end-pumped nonplanar ring laser with two-mirror resonator,” Conf. on Lasers and Electro-Optics (CLEO), paper JThC28, Long Beach, CA, U.S.A., May 2006
  194. J. C. Chen, K. Y. Huang, C. N. Tsai, C. C. Lai, Y. S. Lin, P. Y. Chen, and S. L. Huang, invited, “Spectroscopic characterization on the double-clad Cr4+:YAG crystal fiber amplifier,” Symposium on Optical Communications Technologies, invited paper, Kaohsiung, Taiwan, Mar. 2006
  195. Y. C. Huang, Y. K. Lu, J. C. Chen, Y. C. Hsu, Y. M. Huang, H. M. Yang, M. T. Sheen, S. L. Huang, T. Y. Chang, and W. H. Cheng, “Fabrication of Cr-doped fibers by drawing tower,” Conference on Optical Fiber Communications (OFC), paper OWI21, Anaheim, CA, U.S.A., 2006
  196. 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, invited, “Broadband optical amplifier and light source using Chromium doped fibers,” Optics and Photonics Taiwan, invited paper, Hsinchu, Taiwan, 2006
  197. C. N. Tsai, K. Y. Huang, J. C. Chen, Y. S. Lin, S. L. Huang, and Y. S. Lin, “Study of Cr oxidation states in divalent ions co-doped Cr:YAG single crystal fiber with various annealing treatments,” Optics and Photonics Taiwan, BO-40, Hsinchu, Taiwan, 2006
  198. Y. S. Lin, K. Y. Huang, C. C. Lai, and S. L. Huang, “Study of sapphire tube assisted LHPG growth on double-clad Cr4+:YAG crystal fiber,” Optics and Photonics Taiwan, BP-11, Hsinchu, Taiwan, 2006
  199. S. Y. Wang, S. L. Huang, and F. J. Kao, “Second harmonic microscope of PPLT and PPLN crystal fibers,” Optics and Photonics Taiwan, CP-21, Hsinchu, Taiwan, 2006
  200. 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, invited, “Chromium-doped wideband fiber amplifier,” Optics and Photonics Taiwan, C-FR-V1, invited paper, Tainan, Taiwan, 2005
  201. C. W. Lan, P. Y. Chen, K. Y. Huang, and S. L. Huang, “Two-dimension simulation and experimentation on laser-heated pedestal growth of YAG single-crystal fibers,” 輸送現象研討會, Taipei, Taiwan, 2005
  202. K. Y. Huang, C. C. Lai, J. C. Chen, C. N. Tsai, S. L. Huang, and Y.S. Lin, invited, “Nanocrystal formation in glass-clad Cr:YAG crystal fibers,” Workshop on Photonic Crystals and Nano Photonics, invited paper, Taipei, Taiwan, 2005
  203. L. M. Lee, P. C. Chiu, M. C. Tsai, D. F. Lin, S. L. Huang, S. Y. Tu, S. C. Pei, A. H. Kung, C. C. Kuo, S. B. Huang, and D. Chu, invited, “Cascaded second order nonlinearity for the generation of blue/green laser using ZnO:PPLN crystal fiber,” 兩岸光學微結構材料與元件技術研討會, invited paper, Taipei, Taiwan, 2005
  204. J. C. Chen, C. N. Tsai, K. Y. Huang, Y. S. Lin, F. J. Kao, and S. L. Huang, “Effects of side deposition and annealing for increasing Cr4+ concentration in Cr:YAG crystal fiber,” Conference on Lasers and Electro-Optics, Pacific Rim, paper CTuK4-7, Tokyo, Japan, 2005
  205. Y. S. Lin, C. C. Lai, K. Y. Huang, J. C. Chen, C. Y. Lo, S. L. Huang, T. Y. Chang, and P. Shen, “The observation of crystalline nanostructure in double-clad Cr4+:YAG crystal fiber,” OptoElectronics and Communication Conference, paper 7P-056, Seoul, Korea, 2005
  206. J. Y. Yi, H. T. Tuan, K. W. Cheng, C. K. Lee, and S. L. Huang, “Efficient and compact Yb:YAG ring laser,” Conf. on Lasers and Electro-Optics (CLEO), paper CFO2, Baltimore, MD, U.S.A., 2005
  207. K. Y. Huang, C. Y. Lo, J. C. Chen, C. N. Tsai, C. C. Lai, S. L. Huang, and Y. S. Lin, “Characterization on broadband chromium-doped fiber amplifier,” Conf. on Lasers and Electro-Optics (CLEO), paper CThB5, Baltimore, MD, U.S.A., 2005
  208. L. M. Lee, P. C. Chiu, S. L. Huang, S. Y. Tu, S. C. Pei, and A. H. Kung, “Cascaded second order nonlinearity for the generation of blue/green laser using ZnO:PPLN crystal fibe,” Conf. on Lasers and Electro-Optics (CLEO), paper CTuJ7, Baltimore, MD, U.S.A., 2005
  209. C. Y. Lo, K. Y. Huang, J. C. Chen, C. N. Tsai, C. C. Lai, S. L. Huang, and Y. S. Lin, “Wideband chromium-doped fiber amplifier,” Symposium on Technologies for High-Capacity Optical Communications, FRI-2, Kaohsiung, Taiwan, 2004
  210. S. Y. Tu, A. H. Kung, L. M. Lee, P. C. Chiu, S. L. Huang, and S. C. Pei, “Second harmonic generation of ZnO:PPLN crystal fiber by PPLN OPO,” Optics and Photonics Taiwan, C-SU-IV4-1, Chung-Li, Taiwan, 2004
  211. C. N. Tsai, Y. S. Lin, K. Y. Huang, J. C. Chen, C. Y. Lo, and S. L. Huang, “Enhanced Cr4+ concentration in Cr:YAG crystal fiber by side deposition,” Optics and Photonics Taiwan, C-SU-IV3-4, Chung-Li, Taiwan, 2004
  212. S. C. Wu, S. L. Huang, and F. J. Kao, “Characterization of PPLN crystal fiber with second harmonic microscopy,” Optics and Photonics Taiwan, E-SU-V4-6, Chung-Li, Taiwan, 2004
  213. 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,” Nonlinear Optics: Material, Fundamental, and Applications, postdeadline paper ThD3, Hawaii, U.S.A, 2004
  214. S. L. Huang, C. Y. Lo, K. Y. Huang, J. C. Chen, P. L. Huang, and L. M. Lee, invited, “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, invited paper, Chongqing, China, 2004
  215. S. L. Huang, L. M. Lee, J. C. Chen, and T. S. Chou, C. C. Kuo, and S. B. Huang, invited, “Nonlinear photonic crystal fiber for wavelength conversion,” Symposium on Nonlinear Frequency Mixing and Laser Technologies, invited paper, Hsinchu, Taiwan, 2004
  216. 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,” Conf. on Lasers and Electro-Optics (CLEO), paper CTuS7, San Francisco, CA, U.S.A, 2004
  217. J. C. Chen, C. Y. Lo, K. Y. Huang, C. C. Lai, P. L. Huang, Y. H. Lin, F. J. Kao, S. L. Huang, and Y. S. Lin, “Mapping of Cr ions and refraction index profile in Cr:YAG crystal fiber with double-cladding structure,” Conf. on Lasers and Electro-Optics (CLEO), paper CTuU7, San Francisco, CA, U.S.A., 2004
  218. L. M. Lee, S. L. Huang, Y. C. Cho, C. C. Kuo, and S. B. Huang, “Fabrication and characterization of ZnO:PPLN crystal fiber by electric-field induced micro-swing technique,” Conf. on Lasers and Electro-Optics (CLEO), paper CFA7, San Francisco, CA, U.S.A., 2004
  219. J. C. Chen, C. Y. Lo, K. Y. Huang, P. L. Huang, Y. H. Lin, F. J. Kao, and S. L. Huang, “Mapping of Cr ions profile in Cr:YAG crystal fiber with double-cladding structure,” Optics and Photonics Taiwan, FH1-1, Taipei, Taiwan, 2003
  220. Y. C. Cho, L. M. Lee, J. C. Chen, S. L. Huang, and F. J. Kao, “Fabrication of nonlinear photonic crystal fiber,” Conference on Lasers and Electro-Optics, Pacific Rim, paper F2H-(7)-2, Taipei, Taiwan, 2003
  221. C. Y. Lo, S. Y. Tu, K. Y. Huang, and S. L. Huang, “Fused-silica-clad Cr:YAG fiber,” Conference on Lasers and Electro-Optics, Pacific Rim, paper TH4H-(7)-5, Taipei, Taiwan, 2003
  222. J. C. Chen, C. Y. Lo, S. L. Huang, and F. J. Kao, “The use of fluorescence confocal microscopy in mapping Cr3+ profile within the YAG crystal fiber,” Conference on Lasers and Electro-Optics, Pacific Rim, paper F2H-(7)-4, Taipei, Taiwan, 2003
  223. S. L. Huang, C. Y. Lo, L. M. Lee, K. Y. Huang, and J. C. Chen, invited, “Crystal fiber devices for super wideband optical communication,” Taiwan-Japan Optoelectronics Workshop, invited paper, Tainan, Taiwan, 2003
  224. P. L. Huang and S. L. Huang, “The analysis of polarization in a non-planar ring laser,” Conference on Lasers and Electro-Optics, paper CFM4, Baltimore, MD, U.S.A., 2003
  225. C. Y. Lo, K. Y. Huang, S. Y. Tu, and S. L. Huang, “280-nm amplified spontaneous emission generated by Cr:YAG crystal fiber,” Conference on Lasers and Electro-Optics, paper CWA55, Baltimore, MD, U.S.A., 2003
  226. J. C. Chen, C. Y. Lo, S. L. Huang, and F. J. Kao, “Mapping of Cr ion profile in Cr:YAG crystal fiber by confocal microscopy,” Conference on Lasers and Electro-Optics, paper CWQ2, Baltimore, MD, U.S.A., 2003
  227. P. L. Huang, Y. J. Lu, J. Y. Yi, C. Y. Lo, S. L. Huang, and Y. Huo, “High doping gradient Nd:YAG crystal fiber,” Conference on Lasers and Electro-Optics, paper CWA2, Baltimore, MD, U.S.A., 2003
  228. C. T. Hsiao, C. C Kuo, S. C Pei, and S. L. Huang, “Diode-array-pumped composite-chip blue solid-state laser,” Conference on Lasers and Electro-Optics, paper CThM46, Baltimore, MD, U.S.A., 2003
  229. 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, TuB12, Texas, U.S.A., 2003
  230. L. M. Lee, Y. C. Cho, C. J. Lin, C. Y. Lo, and S. L. Huang, “The study and fabrication of periodically-poled lithium niobate crystal fiber,” Optics and Photonics Taiwan, FF1-5, Taipei, Taiwan, 2002
  231. K. Y. Huang, C. Y. Lo, S. Y. Tu, and S. L. Huang, “Super-wideband ASE light source generated by Cr:YAG crystal fiber,” Optics and Photonics Taiwan, TG2-2, Taipei, Taiwan, 2002
  232. J. C. Chen, C. Y. Lo, S. L. Huang, and F. J. Kao, “Mapping of Cr ion profile in Cr:YAG crystal fiber by confocal microscopy,” Optics and Photonics Taiwan, FA3-5, Taipei, Taiwan, 2002
  233. P. L. Huang, C. J. Weng, H. T. Tuan, S. C. Pei, and S. L. Huang, “Polarization analysis of a non-planar ring laser,” Optics and Photonics Taiwan, TG1-3, Taipei, Taiwan, 2002
  234. C. Y. Lo, L. M. Lee, S.Y. Tu, K. Y. Huang, Y. C. Cho, and S. L. Huang, invited, “Crystal fiber devices for optical fiber communications,” Japan-Taiwan Joint Symposium on Nanophotonics Technology, invited paper, Osaka, Japan, 2002
  235. C. Y. Lo, L. M. Lee, T. S. Chou, C. J. Lin, and S. L. Huang, invited, “Crystal fiber devices for laser and nonlinear frequency conversion,” ROC-Lithuania Bilateral Conference on Optoelectronics and Magnetic Materials, invited paper, Taipei, Taiwan, 2002
  236. C. Y. Lo, T. S. Chou, P. L. Huang, L. M. Lee, and S. L. Huang, “High-efficient Nd:YAG crystal fiber laser,” Conference on Lasers and Electro-Optics, paper CTuP6, Long Beach, CA, U.S.A., 2002
  237. J. Y. Yi, P. L. Huang, H. T. Tuan, and S. L. Huang, “Planar and non-planar multi-reentrant 2-mirror ring cavities,” Conference on Lasers and Electro-Optics, paper CThO12, Long Beach, CA, U.S.A., 2002
  238. C. Y. Lo, T. S. Chou, L. M. Lee, P. L. Huang, S. L. Huang, Y. J. Huo, “Gradient-index Nd:YAG crystal fiber laser,” Advanced Solid-State Lasers, paper MB-19, Quebec City, Canada, 2002
  239. J. Y. Yi, P. L. Huang, H. T. Tuan, Y. H. Chen, and S. L. Huang, “Multi-reentrant ring laser cavity,” Optics and Photonics Taiwan, FD2-2, Kaohsiung, Taiwan, 2001
  240. C. Y. Lo, T. S. Chou, P. L. Huang, L. M. Lee, S. L. Huang, L. C. Lin, C. S. Chang, H. Y. Lin, and F. C. Ho, “Diode laser pumped crystal fiber lasers with gradient-index profile,” Optics and Photonics Taiwan, TD2-2, Kaohsiung, Taiwan, 2001
  241. J. C. Chen, F. J. Kao, S. C. Shih, S. L. Huang, T. S. Horng, and T. L. Wu, “Optical beam induced current microscopy at radio frequency,” Optics and Photonics Taiwan, FF1-3, Kaohsiung, Taiwan, 2001
  242. P. L. Huang, Y. L.Weng, C. W. Wang, H. Z. Cheng, and S. L. Huang, “Passively Q-switched three-level laser and its intracavity frequency-doubling,” Conference on Lasers and Electro-Optics/ Pacific Rim, paper WI1-1, Chiba, Japan, 2001
  243. C. J. Weng, P. L. Huang, H. Z. Cheng, and S. L. Huang, “Reduction of thermally-induced polarization rotation in a nonplanar ring laser cavity,” Conference on Lasers and Electro-Optics/ Pacific Rim, paper WI2-1, Chiba, Japan, 2001
  244. W. K. Kuo, C. H. Pai, and S. L. Huang, “An electro-optic probing system for near electric field measurement using heterodyne method,” Conference on Lasers and Electro-Optics/ Pacific Rim, paper TuG1-4, Chiba, Japan, 2001
  245. S. L. Huang, H. Z. Cheng, and P. L. Huang, “Reentrant two-mirror laser ring cavity for the generation of single frequency green laser,” Advanced Solid-State Lasers, ME3, pp.388-391, Davos, Switzerland, 2000
  246. C. R. Weng, P. L. Huang, H. Z. Cheng, and S. L. Huang, “Characterization and analysis of the polarization in a nonplanar ring laser cavity,” International Photonics Conference, Th-T3-C001, Hsinchu, Taiwan, 2000
  247. C. Y. Lo, L. M. Lee, C. Y. Tai, and S. L. Huang, “Growth and characterization of gradient index laser crystal fibers,” International Photonics Conference, Th-T3-P001, Hsinchu, Taiwan, 2000
  248. W. K. Kuo, W. H. Chen, C. H. Pai, S. L. Huang, and Y. T. Huang, “Three-dimensional electric-field vector measurement using electro-optic sensing technique,” International Photonics Conference, Th-S2-E004, Hsinchu, Taiwan, 2000
  249. W. K. Kuo, S. L. Huang, W. H. Chen, and Y. T. Huang, invited, “Three-dimensional electric-field vector measurement using electro-optic sensing technique,” Asia-Pacific Symposium on Confocal Microscopy and Related Technologies, invited paper, Kaohsiung, Taiwan, 2000
  250. F. J. Kao, M. K. Huang, Y. S. Wang, S. L. Huang, M. K. Lee, C. K. Sun, and P. C. Cheng, “Two-photon optical-beam-induced current microscopy of indium gallium nitride light emitting diodes,” SPIE Optics and Photonics Taiwan, 4082-19, Taipei, Taiwan, 2000
  251. F. J. Kao, Y. S. Wang, M. K. Huang, S. L. Huang, and P. C. Cheng, “Second-harmonic generation microscopy of tooth,” SPIE Optics and Photonics Taiwan, 4082-23, Taipei, Taiwan, 2000
  252. P. L. Huang, H. Z. Cheng, and S. L. Huang, “Timing-jitter reduction of passively Q-switched laser by a reentrant 2-mirror ring cavity,” Conf. on Lasers and Electro-Optics (CLEO), paper CThM2, San Francisco, CA, U.S.A., 2000
  253. W. H. Chen, W. K. Kuo, S. L. Huang, Y. T. Huang, and H. Z. Cheng, “On-wafer 2D electric-field-vector mapping using one-beam electro-optic probing technique,” Conf. on Lasers and Electro-Optics (CLEO), paper CFB1, San Francisco, CA, U.S.A., 2000
  254. S. L. Huang, H. Z. Cheng, and P. L. Huang, invited, “Compact solid-state visible lasers,” Optics and Photonics Taiwan, FR-III5-C-1, invited paper, Taiwan, 1999
  255. P. L. Huang, H. Z. Cheng, and S. L. Huang, “Two mirror figure ‘8’ ring resonator,” Optics and Photonics Taiwan, TH-III2-C-4, Taiwan, 1999
  256. Y. L. Weng, H. Z. Cheng, S. L. Huang, and F. J. Kao, “Passively Q-switched and intracavity frequency-doubled blue laser,” Optics and Photonics Taiwan, PC-1, Taiwan, 1999
  257. W. H. Chen, W. K. Kuo, S. L. Huang, and Y. T. Huang, “On-wafer electro-optic probing using rotational deformation-modulation, 1999,” Optics and Photonics Taiwan, TH-V2-E-4, Taiwan, 1999
  258. S. L. Huang, H. Z. Cheng, and P. L. Huang, invited, “Compact solid-state green laser and its application in microwave generation,” International Microwave and Optoelectronics Conference, Th-A2-1, invited paper, Rio de Janeiro, Brazil, 1999
  259. J. W. Lin, S. L. Huang, F. J. Kao, and T. S. Horng, “The study of stability in active laser mode locking with self-phase modulation and fast switching,” International Photonics Conference, T-T3-A3, Taiwan, 1998
  260. T. Y. Tsui, S. L. Huang, and F. J. Kao, “High pulse energy and single frequency passively Q-switched Nd:YAG/Cr4+:YAG laser,” International Photonics Conference, W-T3-C4, Taiwan, 1998
  261. W. L. Wu and S. L. Huang, “Probing of 3-D temperature distribution in end-pumped solid-state laser crystal,” International Photonics Conference, T-PO23, Taiwan, 1998
  262. W. K. Kuo, Y. T. Huang, and S. L. Huang, “Three-dimensional electric-field vector measurement using an electro-optic prober,” International Photonics Conference, T-T3-A4, Taiwan, 1998
  263. F. J. Kao, H. P. Wang, and S. L. Huang, “Photoluminescence mapping of high indium concentration InGaN/GaN thin films,” International Photonics Conference, F-PO10, Taiwan, 1998
  264. F. J. Kao, H. P. Wang, S. L. Huang, S. A. Chen, K. R. Chuang, W. S. Fann, and H. F. Meng, “Mapping photoluminescence quenching on poly(p-phenylene-vinylene) based thin film light emitting devices through photo-current and photoluminescence imaging,” International Photonics Conference, F-PO27, Taiwan, 1998
  265. W. L. Wu, S. L. Huang, and F. J. Kao, “Probing of Thermal effects in diode-laser-pumped solid-state laser by precision optical reflectometer,” Dig. Conf. Lasers and Electro-Optics (CLEO), paper CTuI2, San Francisco, CA, U.S.A., 1998
  266. W. K. Kuo, S. L. Huang, and L. C. Chang, “High-sensitivity and real-time electro-optic E-vector probing technique,” in Optics and Photonics/Taiwan, FRI-III-E6, Hsinchu, Taiwan, 1997
  267. T. Y. Tsui, S. L. Huang, F. J. Kao, and J. T. Tung, “Study of the timing-jitter reduction of a passively Q-switched Nd:YAG/Cr4+:YAG laser,” in Optics and Photonics /Taiwan, FRI-III-C5, Hsinchu, Taiwan, 1997
  268. W. L. Wu, S. L. Huang, and F. J. Kao, “Thermal lensing enhanced second harmonic generation in a diode-laser-pumped Nd:YVO4 laser,” in Optics and Photonics /Taiwan, FRI-III-E1, Hsinchu, Taiwan, 1997
  269. J. W. Lin, S. L. Huang, F. J. Kao, and T. S. Horng, “Self-phase modulation and fast switching enhanced pulse generation in an actively mode-locked Nd:YLF laser,” in Optics and Photonics/Taiwan, THU-III-B6, Hsinchu, Taiwan, 1997
  270. S. F. Chiu, S. N. Wu, M. L. Chuang, S. L. Huang, A. K. Chu, and W. H. Cheng, “Thermal stresses in temperature dependence of refractive index of Ta2O5 dielectric films,” in Optics and Photonics/Taiwan, FRI-I-D4, Hsinchu, Taiwan, 1997
  271. H. S. Hsieh, C. S. Hsu, S. L. Huang, and F. J. Kao, “Enhancement of conversion efficiency of intracavaty-frequency-doubled Nd:YVO4 laser by cross-polarized longitudinal modes,” Solid State Lasers Materials and Applications, paper TuC5, Tianjin, PRC, 1997
  272. W. K. Kuo, S. L. Huang, and L. C. Chang, “On-wafer dual beam electro-optic probing of electric-field vector,” Dig. Conf. Lasers and Electro-Optics (CLEO), paper CTuP45, Balimore, MD, U.S.A., 1997
  273. F. J. Kao, L. J. Chang, S. L. Huang, S. A. Chen, K. R. Chuang, and W. S. Fann, “Photo-current imaging of poly(p-phenylenevinylene) thin film light emitting devices with a laser scanning microscope,” Proceedings of SPIE, 3145, pp. 333-338, 1997
  274. 林靖淵、黃升龍, “Fast and robust scheme for the phase retrieval of ultrafast laser pulses,” Photonics Taiwan, paper FRC-C-4, Hsinchu, Taiwan, 1996
  275. 郭文凱、黃升龍, “Wafer level electric field vector sensing by electro-optic prober,” Photonics Taiwan, paper THD-A-1, Hsinchu, Taiwan, 1996
  276. 劉立仁、許主賜、黃升龍、高甫仁, “A novel stabilization feedback control of mode-locked laser for real-time measurement,” 超快光學與光電子學研討會, paper B3, Hsinchu, Taiwan, 1996
  277. 黃升龍、高甫仁、林敬舜、陳文吉, “Timing jitter reduction of a diode-laser-pumped TEC-AOM mode-locked Nd:YLF laser,” 半導體、光纖與積體光電研討會, paper SO3-7, Taipei, Taiwan, 1995
  278. S. L. Huang, F. J. Kao, W. J. Chen, J. S. Lin, K. C. Lee, P. J. Tsai, and J. Y. Lin, “Stability of cw and mode-locked operations of an intracavity frequency-doubled and diode-laser-pumped Nd:YLF laser,” Conference on Lasers and Electro-Optics/ Pacific Rim, paper TuN4, Chiba, Japan, 1995
  279. 高甫仁、陳文吉、林敬舜、黃升龍, “Diode-pumped picosecond Nd:YLF laser at 1053 nm and 526.5 nm,” 物理年會, paper P86, Taiwan, 1994
  280. 黃升龍、高甫仁、陳文吉、林敬舜、林靖淵、蔡佩溶、李克琴, “Intra-cavity frequency doubling of a cw mode-locked diode-laser-pumped Nd:YLF laser,” 超快光學及應用研討會, paper S-1-2, Taipei, Taiwan, 1994
  281. S. L. Huang and K. C. Lee, “Optical characterization of coplanar waveguide based high-speed device interconnect,” International Conference on Electronic Materials, Hsinchu, Taiwan, 1994
  282. S. L. Huang, “The applications of ultrafast optics on microwave/millimeter-wave semiconductor devices,” First Chinese (Beijing-Hong Kong-Taipei) Optoelectronics Workshop, Hong Kong, 1994
  283. W. -L. Cao, Y. -Q. Liu, Y. -S. Lai, S. L. Huang, V. Bhanthumnavin, C. H. Lee, Z. -Y. Shen, P. Pang, D. J. Kountz, and W. L. Holstein, “Microwave generation using laser activated high Tc superconductors,” IEEE/LEOS summer topical meeting on Optical Microwave Interactions, Santa Barbara, CA, U.S.A., 1993
  284. H-L. A. Hung, C. H. Lee, and S. L. Huang, invited, “Picosecond optical techniques for MMIC characterization and control,” IEEE/LEOS summer topical meeting on Optical Microwave Interactions, invited paper, Santa Barbara, CA, U.S.A., 1993
  285. S. L. Huang, C. H. Lee, and H-L. A. Hung, “Optimization of optical-microwave phase-locked loop for fast real-time waveform sampling,” IEEE/LEOS summer topical meeting on Optical Microwave Interactions, Santa Barbara, CA, U.S.A, 1993
  286. S. E. Saddow, B. J. Thedrez, S. L. Huang, T. J. Mermagen, and C. H. Lee, “An investigation of the temperature and electric field dependence of a GaAs microwave photoconductive switch, 1993,” OE LASE/SPIE, Los Angeles, CA, U.S.A., 1993
  287. S. L. Huang, H-L. A. Hung, and C. H. Lee, “On-wafer optoelectronic techniques for millimeter-wave generation, control, and circuit characterization,” OSA Proceeding on Ultrafast Electronics & Optoelectronics, 14, pp. 179-182, U.S.A., 1993
  288. L. P. Golob, S. L. Huang, C. H. Lee, W. H. Chang, K. Jones, M. Taysing-Lara, and T. DeAnni, “Picosecond photoconductive switches designed for on-wafer characterization of high frequency interconnects,” IEEE MTT-S International Microwave Symposium, paper QQ-4, Atlanta, Georgia, U.S.A., 1993
  289. S. L. Huang, C. H. Lee, and H-L. A. Hung, “Broadband and real time waveform sampling using optic-microwave phase-locking,” IEEE MTT-S International Microwave Symposium, paper QQ-1, Atlanta, Georgia, U.S.A., 1993
  290. S. L. Huang and C. H. Lee, “Transient response of high electric field picosecond photoconductive switch,” IEEE MTT-S International Microwave Symposium, paper R-3, U.S.A., 1992
  291. S. L. Huang, E. A. Chauchard, C. H. Lee, T. T. Lee, H-L. A. Hung, and T. Joseph, “On-wafer testing of MMIC with monolithically integrated photoconductive switches,” IEEE MTT-S International Microwave Symposium, paper R-1, U.S.A., 1992
  292. S. L. Huang, L. P. Golob, C. H. Lee, and H-L. A. Hung, “A novel approach to miniature photoconductive sampling of microwave circuits,” Dig. Conf. Lasers and Electro-Optics (CLEO), paper JFD2, Anaheim, CA, U.S.A., 1992
  293. H-L. A. Hung, M. G. Li, S. L. Huang, and C. H. Lee, “Characterization of microwave integrated circuits using optical phase-locking and sampling system,” IEEE MTT-S International Microwave Symposium, paper P-6, U.S.A., 1991
  294. M. G. Li, S. L. Huang, C. H. Lee, and H-L. A. Hung, “Optical phase locking of microwave signals and its application to waveform sampling,” Dig. Conf. Lasers and Electro-Optics (CLEO), paper CTuR6, Baltimore, MD, U.S.A., 1991
  295. S. L. Huang, L. P. Golob, E. A. Chauchard, C. H. Lee, T. Smith, T. T. Lee, and T. R. Joseph, “Time window limited dynamic range of photoconductive sampling,” IEEE/LEOS summer topical meeting on Optical Millimeter-Wave Interaction: Measurements, Generation, Transmission, and Contro, paper WA3, Newport Beach, CA, U.S.A., 1991
  296. M. G. Li, S. L. Huang, C. H. Lee, and H-L. A. Hung, “Optical phase locking of microwave signals and its application to waveform sampling,” OSA Proceeding on Picosecond Electronics & Optoelectronics, 9, pp. 151-155, U.S.A., 1991
  297. S. L. Huang, E. A. Chauchard, C. H. Lee, T. Smith, T. T. Lee, and T. R. Joseph, “Comparison of oxygen ion and proton implanted GaAs photoconductive switches,” OSA Proceeding on Picosecond Electronics & Optoelectronics, 9, pp. 248-252, U.S.A., 1991

Books:

  1. P. Y. Chen, C. L. Chang, and S. L. Huang, “Crystal-fiber growth using laser-heated pedestal growth method,” Lambert Academic Publishing, 116 pages, 2011, ISBN:978-3-8383-3279-6
  2. 李齊湘、嚴立、黃升龍, “超快光電技術及應用,” 光電科技資料叢書之二十八, 1999

Patents:

  1. K. Y. Hsu, D. Y. Jheng, Y. H. Liao, and S. L. Huang, “Ti:sapphire crystal fiber, manufacturing method thereof, and wide band light source using the same,” US patent 8,625,948, 2014
  2. Y. T. Wang, P. K. Hsu, and S. L. Huang, “Apparatus for low coherence optical imaging,” US patent 8,610,900, 2013
  3. Y. T. Wang, P. K. Hsu, and S. L. Huang, “Apparatus for low coherence optical imaging,” US patent 8,582,110, 2013
  4. C. C. Tsai, K. Y. Hsu, Y. S. Lin, and S. L. Huang, “Three-dimensional optical coherence tomography confocal imaging apparatus,” US patent 8,553,209, 2013
  5. Y. T. Wang, P. K. Hsu, K. Y. Hsu, D. Y. Jheng, C. C. Tsai, and S. L. Huang, “Optical imaging apparatus and method,” US patent 8,493,568, 2013
  6. Y. S. Lin, C. C. Tsai, T. C. Cheng, K. Y. Hsu, D. Y. Jheng, and S. L. Huang, “White light source with crystal fiber and method for color temperature tuning thereof,” US patent 8,416,489, 2013
  7. S. L. Huang, C. Y. Lo, K. Y. Huang, S. Y. Tu, Lee, H. W. Lee, S. P. Huang, and S. B. Yin, “Fiber used in wideband amplified spontaneous emission light source and the method of making the same,” US patent 8,146,389, 2012
  8. K. Y. Huang, C. Y. Lo, and S. L. Huang, “Indirect heat type double-clad crystal fiber fabrication method,” US patent 8,001,806, 2011
  9. S. L. Huang, C. Y. Lo, S. B. Huang, and S. B. Yin, “Micro crystal fiber lasers and method of making frequency-doubling crystal fibers,” US patent 7,630,415, 2009
  10. S. L. Huang, C. Y. Lo, K. Y. Huang, S. Y. Tu, H. W. Lee, S. P. Huang, and S. B. Yin, “Fiber used in wideband amplified spontaneous emission light source and the method of making the same,” US patent 7,519,262, 2009
  11. C. C. Kuo, L. M. Lee, Y. C. Cho, S. L. Huang, S. B. Huang, “Method and apparatus for fabricating a crystal fiber,” U.S.A. 7,361,218, Apr. 2008
  12. S. L. Huang, C. Y. Lo, K. Y. Huang, S. Y. Tu, H. W. Lee, S. P. Huang, S. B. Yin, “Fiber used in wideband amplified spontaneous emission light source and the method of making the same,” U.S.A. 7,352,949, Apr. 2008
  13. K. Y. Huang, C. Y. Lo, S. L. Huang, “Indirect heat type double-clad crystal fiber fabrication method,” U.S.A 20080047303, Feb. 2008
  14. S. L. Huang, C. Y. Lo, K. Y. Huang, J. C. Chen, C. Y. Chuang, C. C. Lai, Y. S. Lin, Yeh, P. S. Yeh, “Transition metal doped fiber amplifier,” U.S.A. 7,333,263, Feb. 2008
  15. S. L. Huang, H. W. Lee, C. C. Kuo, S. B. Huang, T. S. Chou, L. M. Lee, “Method and apparatus for fabricating a crystal fiber by utilizing at least two external electric fields,” U.S.A. 7,258,740, Aug. 2007
  16. 黃升龍,黃光瑤,羅家堯, “間接加熱之雙纖衣晶體光纖製造方法,” 中華民國 200811494, Aug. 2006
  17. S. L. Huang, C. Y. Lo, S. P. Huang, S. B. Yin, “Micro crystal fiber lasers and method of making frequency-doubling crystal fibers,” U.S.A 20060002433, Jan. 2006
  18. 黃升龍,高甫仁,吳松峻, “微弱訊號顯微裝置,” 中華民國 I257204, Jun. 2005
  19. 黃升龍,羅家堯,黃光瑤,陳建誠,莊江源,賴建智,林彥盛,葉秉慧, “摻過渡金屬光纖放大器,” 中華民國 200624978, Jan. 2005
  20. 黃升龍,周采璇,李立民,郭家彰,黃勝邦,李孝文, “晶體光纖之製造方法及製造裝置,” 中華民國 I249509, Nov. 2004
  21. 黃升龍,羅家堯,黃勝邦,殷尚彬, “微型晶體光纖雷射及倍頻晶體光纖之製造方法,” 中華民國 I233248, Jun. 2004
  22. 郭家彰,李立民,卓裕傑,黃升龍,黃勝邦, “晶體光纖之製造方法及裝置,” 中華民國 I233506, May 2004
  23. H. Z. Cheng,S. L. Huang W. H. Cheng,F. J. Kao,I. C. Her,P. L. Huang, “Two mirror figure “8” ring cavity,” U.S.A. 6,570,904, May 2003
  24. S. L. Huang,F. J. Kao,T. S. Horng,W. H. Cheng,T. Y. Tsui,H. Z. Cheng, “Frequency stabilized passively Q-switched laser,” U.S.A 6,335,942, Jan. 2002
  25. 黃升龍,高甫仁,洪子聖,鄭木海,崔宗元,鄭慧如, “穩頻式被動Q開關雷射,” 中華民國 127937, Mar. 2001
  26. 鄭木海,鄭慧如,黃升龍,高甫仁,何應勤,黃碧鈴, “雙鏡式立體環型共振腔,” 中華民國 128596, Mar. 2001
  27. 郭文凱,陳蔚軒,黃遠東,黃升龍, “使用旋轉形變調變系統之向量電場電光探測裝置及方法,” 中華民國 494242 (公告號), Mar. 2001
  28. 鄭木海,童儒達,黃升龍,洪子聖,高甫仁,蘇怡仁,劉宏孟, “電脈衝式微小型綠光雷射指示器,” 中華民國 157874, Apr. 2000
  29. 郭文凱,黃升龍,張良知,鍾炳中,周曉宇,陳文發, “向量電場的電光量測裝置及量測方法,” 中華民國 101038, Jan. 2000
  30. W. K. Kuo, S. L. Huang, L. C. Chang, P. C. Chung,H. Y. Chou, W. F. Chen, “Electro-optic apparatus and method for electric-field vector,” U.S.A. 6,011,402, Jan. 2000
  31. 筆式綠光雷射模組, “電脈衝式微小型綠光 雷射指示器,” 國立中山大學, Nov. 1999
  32. 黃升龍,羅家堯,許榮宗,黃勝邦,殷尚彬, “微型紅、綠、藍三色光纖雷射,” 中華民國 申請中
  33. S. L. Huang,C. Y. Lo,K. Y. Huang,S. Y. Tu,S. W. Lee,S. B. Huang,S. B. Yin, “Super wideband amplified spontaneous emission device,” 中華民國U.S.A. 申請中

other:

  1. 張維, 王譽達, 蔡建中, 許博凱, 黃升龍, “超高解析度光學斷層影像系統之開發整合與圖像處理分析,” 2010, 機電整合雜誌, 第143期7月號, 第116頁.
  2. 張俊霖, 黃玠維, 呂柏翰, 李彥葦, 范祐維, 黃升龍, “全光纖高功率摻鐿光纖雷射與放大器,” 2008, 光學工程季刊, 104期
  3. 翁俊仁, 許巍耀, 施至柔, 黃升龍, “綜觀高功率光纖雷射及其相關技術,” 2007, 科儀新知, 二十八卷第六期, 第13頁
  4. 羅家堯, 周采璇, 黃升龍, “高效率掺釹釔鋁石榴石晶體光纖雷射,” 2007, 科儀新知, 二十八卷第六期, 第24頁
  5. 黃光瑤, 陳建誠, 羅家堯, 黃升龍, “超寬頻摻鉻晶體光纖放大器,” 2006, 科儀新知, 二十七卷第五期, 第17頁
  6. 羅家堯, 黃光瑤, 陳建誠, 莊江源, 黃升龍, “雙纖衣摻鉻釔鋁石榴石晶體光纖之生長及應用,” 2005, 光學工程季刊, 八十七期,第9頁
  7. 黃升龍、黃碧鈴、易瑞昀, “雙鏡式環型共振腔在小型固態雷射之應用,” 2004, 工程科技通訊,七十四期,第97頁
  8. 黃升龍, “晶體光纖在雷射及光通訊之應用,” 2002, 光通訊與光電半導體元件技術研討會
  9. 黃升龍、羅家堯、戴忠勇, “雷射及非線性晶體光纖之研製,” 2002, 工程科技通訊,六十期,第160-162頁及封面圖片
  10. 郭文凱、陳蔚軒、黃升龍、黃遠東, “向量電場電光探測技術,” 2001, 光訊,八十九期,第24-28頁
  11. 黃升龍, “淺談固態藍/綠光雷射之發展,” 2001, 物理雙月刊,二十三期,二卷, 第346-351頁
  12. 黃升龍、鄭木海, “小型固態雷射之研發,” 2000, 科學發展月刊, 第二十八卷第十一期,
  13. S. L. Huang, “NSC University-Industry Co-op Project-Compact Solid-state Lasers,” 2000, NSC Science Bulletin, 32, No. 7.
  14. 陳蔚軒、黃升龍、郭文凱、黃遠東, “使用旋轉形變調變系統之電場向量電光探測裝置,” 2000, 科儀新知, 二十一卷六期
  15. 黃升龍, “半導體雷射激發之固態雷射在電子工業之應用,” 1997, 電子資訊, 第三卷第三期, 第26-32頁
  16. 黃升龍、謝鴻生、高甫仁, “小型綠光雷射之研製,” 1997, 工程科技通訊,二十一期
  17. 郭文凱、黃升龍, “超快雷射在微波電路量測上的應用,” 1996, 科儀新知, 十七卷六期
  18. 黃升龍、高甫仁, “晶片層級的光學式微波∕毫米波網路分析儀之研製,” 1996, 工程科技訊,十六期
  19. 黃升龍、李齊湘, “超快速光學在微波及毫米波上的應用(下),” 1995, 光訊,五十二期
  20. 黃升龍、李齊湘, “超快速光學在微波及毫米波上的應用(上),” 1994, 光訊,五十一期