Home Faculty Visiting Chair Professor Wood - Hi Cheng, IEEE Fellow Professor
Wood - Hi Cheng, IEEE FellowProfessor - Visiting Chair Professor
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Tel
886-4-22851549 ext.713
E-Mail
Lab
Education
Ph. D (Physics), Oklahoma State University, Stillwater, Oklahoma
Experiences
- Chair Professor, National Chung Hsing University, Taichung, Taiwan (08/2014 - present)
- Professor/Chair Professor, Dean, Director, Center Director, National Sun Yat-sen University, Taiwan (08/1994-07/2014)
- Program Director of Ministry of Science and Engineering/Professor, National Sun Yat-sen University, Taiwan (12/2008-12/2011)
- Optoelectronic Packaging Manager, Tacan Corp. CA (09/1991-01/1994)
- Principal Engineer, Rockwell International, CA (03/1984-08/1991)
- Senior Engineer, General Optronics, NJ (10/1980-02/1984)
Research Areas
Photonic package technology, Broadband fiber amplifier
Academic Service
1. Program Director of Photonics for Ministry of Science and Engineering(12/2008-12/2011)
2. Taipei Chair of IEEE Photonics Society (1999 - 2000)
3. Taiwan Section Chair of OSA (2005 - 2006)
2. Taipei Chair of IEEE Photonics Society (1999 - 2000)
3. Taiwan Section Chair of OSA (2005 - 2006)
Awards
1. 2011-2013 IEEE Photonics Society for Distinguished Lecture Award
2. 2013 Taiwan Photonics Society Award
3. 2010 IEEE Photonics Society for Engineering Achievement Award
4. 2004, 2007, 2011 Ministry of Science and Engineering for Outstanding Research Award
5. IEEE, OSA, SPIE Fellow
2. 2013 Taiwan Photonics Society Award
3. 2010 IEEE Photonics Society for Engineering Achievement Award
4. 2004, 2007, 2011 Ministry of Science and Engineering for Outstanding Research Award
5. IEEE, OSA, SPIE Fellow
Selected Publications
● Journal Paper
1.
Y.P. Chang, H.K. Shih, C.N. Liu, H.A. Chen, Stark Tsai, Kenneth Li, P. Han, and W.H. Cheng, “Novel Laser-Assisted LED for adaptive-driving-beam headlight employing ultra-reliable single crystal phosphor for autonomous vehicles,” Opt. Exp., vol. 19, no. 29, pp. 28218–28225, 06 2021. (SCI)
2.
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,” IEEE J. Lightwave Technol., vol. 11, no. 39, pp. 3531-3538, 06 2021. (SCI)
3.
H.K. Shih, C.N. Liu, W.C. Cheng, W.H. Cheng, “High Performance and Reliability of Two-Inch Phosphor-in-Glass for White Light-Emitting Diodes Employing Novel Wet-Type Cold Isostatic Pressing,” IEEE Photonics J., vol. 3, no. 13, pp. 1-10, 06 2021. (SCI)
4.
S. Donati, G. Martini, Z.W. Pei, and W.H. Cheng, “Analysis of Timing Errors in Time-of-Flight LiDAR Using APDs and SPADs Receivers,” IEEE J. Quantum Electronics., vol. 1, no. 57, pp. 1-8, 02 2021. (SCI)
5.
H.K. Shih, C.N. Liu, W.C. Cheng, W.H. Cheng, “High color rendering index of 94 in white LEDs employing novel CaAlSiN3: Eu2+ and, Lu3Al5O12:Ce3+ co-doped phosphor-in-glass,” Opt. Exp., vol. 19, no. 28, pp. 28218–28225, 09 2020. (SCI)
6.
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 J., vol. 2, no. 12, pp. 1-11, 04 2020. (SCI)
7.
Y.P. Chang, C.N. Liu, Z.W. Pei, S.M. Lee, Y.K. Lai, P. Han, H.K. Shih, and W.H. Cheng, “New scheme of LiDAR-embedded smart laser headlight for autonomous vehicles,” Opt. Exp., vol. 20, no. 27, pp. A1481-A1489, 09 2019. (SCI)
8.
Y.P. Chang, J.K. Chang, H.A. Chen, S.H. Chang, C.N. Liu, P. Han, and W.H. Cheng, “An advanced laser headlight module employing highly reliable glass phosphor,” Opt. Exp., vol. 3, no. 27, pp. 1808-1815, 02 2019. (SCI)
9.
C.Y. Peng, C.T. Tsai, H.Y. Wang, Y.C. Wu, T.T. Shih, J.J. Huang, H.C. Kuo, W.H. Cheng, G.R. LIN, and C.H. Wu, “High-Temperature Insensitivity of 50Gb/s 16-QAM-DMT Transmission by Using Temperature Compensated Vertical-Cavity Surface-Emitting Lasers,” IEEE J. Lightwave Technol., vol. 22, no. 36, pp. 3332-3343, 08 2018. (SCI)
10.
C.N. Liu, S.C. Lei, Y.C. Hsu, C.P. Yu, C.H. Lin, and W.H. Cheng, “New Scheme of Microlens for High-Yield Laser Coupling to PMF by Calibrated Glass Coating,” EEE Photon. Techonl. Lett., vol. 12, no. 30, pp. 1075-1078, 06 2018. (SCI)
11.
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,” J. Lightwave. Technol., vol. 22, no. 35, pp. 4930–4936, 11 2017. (SCI)
12.
C.H. Lin, S.C. Lei, W.H. Hsieh, Y.C. Tsai, C.N. Liu, and W.H. Cheng, “Micro-hyperboloid lensed fibers for efficient coupling from laser chips,” Opt. Exp., no. 25, pp. 24480-24485, 10 2017. (SCI)
13.
Y.P. Chang, J.K. Chang, W.C. Cheng, Y.Y. Kuo, C.N. Liu, L.Y. Chen, and W.H. Cheng, “New scheme of a highly-reliable glass-based color wheel for next-generation laser light engine,” Opt. Mat. Exp., vol. 3, no. 7, pp. 1029-1034, 03 2017. (SCI)
14.
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 On-Line Growth System,” IEEE Photo. Technol. Letts., vol. 19, no. 29, pp. 2098, 10 2016. (SCI)
15.
C.N. Liu,W.H. Hsieh,Y.C. Tsai, Y.C. Hsu, C.H. Lin, and W.H. Cheng, “An Oriented-Dependence-Microlens Visual Alignment and Packagingfor Lasers Coupling to Polarization Maintaining Fibers,” IEEE Photo. Technol. Letts., vol. 14, no. 28, pp. 1569, 07 2016. (SCI)
16.
W.H. Hsieh, C.N. Liu, Y.C. Tsai, Y.C. Hsu, Y.C. Huang, M.T. Sheen, S.Y. Yang, C.P. Yu, P. Yeh, and W.H. Cheng, “Mode Matching and Coupling ofLensed and Cleaved Fibers Employing Near-Field Technique,” IEEE Photo. Technol. Letts., no. 28, pp. 456, 02 2016. (SCI)
17.
W.H. Hsieh, C.N. Liu, Y.C. Huang, C.A. Hsu, S.S. Lei, Y.C. Hsu, Y.C. Tsai, C.H. Lin, C.P. Yu, and W.H. Cheng, “A New Scheme of Oriented Hyperboloid Microlens for Passive Alignment Lasers to Polarization Maintaining Fibers,” IEEE/OSA Journal Lightwave Technol, vol. 20, no. 33, pp. 4187-4192, 10 2015. (SCI)
18.
P.L. Huang, W.L. Chen, T.W. Peng,.C.Y. Su, C.Y. Yeh, and W.H. Cheng, “Investigation of Saturable and Reverse Saturable Absorption for Graphene by Z-scan Technique,” IEEE Photo. Technol. Letts., vol. 17, no. 27, pp. 1791-1794, 09 2015. (SCI)
19.
L.Y. Chen, W.C. Cheng, C.C. Tsai, J.K. Chang, Y.C. Huang, J.C. Huang, and W.H. Cheng, “Chromaticity Tailorable Glass-Based Phosphor-Converted Light-Emitting Diodes with High Color Rendering Index,” Opt. Express, no. A1024, 07 2015. (SCI)
20.
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,” Opt. Express, no. 23, pp. 29723, 01 2015. (SCI)
21.
W.L. Wang, G.L. Cheng, Y.C. Huang, N.K. Chen, S.L. Huang, and W.H. Cheng, “Single-Mode Cr-Doped Crystalline Core Fibers for Broadband Fiber Amplifiers,” IEEE Photo. Technol. Letts. , vol. 2, no. 27, pp. 205-208, 01 2015. (SCI)
22.
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 Optical-Coherence-Tomography,” IEEE Photo. Technol. Letts. , vol. 1499, no. 26, 2015. (SCI)
23.
L.Y. Chen, W.C. Cheng, C.C. Tsai,Y.C. Huang, Y.S. Lin, and W.H. Cheng,, “High-Performance Glass Phosphor for White-Light-Emitting Diodes via Reduction of Si-Ce3+:YAG Inter-diffusion,” Optics Materials Express, vol. 1, no. 14, pp. 121, 12 2014. (SCI)
24.
L.Y. Chen, W.C. Cheng, C.C. Tsai, J.K. Chang, Y.C. Huang, J.C. Huang, and W.H. Cheng, “Novel Broadband Glass Phosphors for Applications in High CRI WLEDs,” Opt. Express, no. 22, pp. A671-A678, 05 2014. (SCI)
25.
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 Photo. Technol. Letts., vol. 6, no. 26, pp. 58, 03 2014. (SCI)