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Photonics
and Display Group Ph. D. student |
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Education
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08/2001-12/2005 |
Ph.D. student, Electrical Engineering, |
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09/1992-03/1995 |
M.S. in Electrical Engineering, Hangzhou Institute
of Electronic Engineering (HIEE), Hangzhou, P. R. China |
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09/1988-07/1992 |
B.S. in Electrical Engineering, Hangzhou Institute
of Electronic Engineering (HIEE), Hangzhou, P. R. China |
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04/1995-02/2001 |
Faculty member, Department of Automatic Control,
Donghua University (DHU), |
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1. H. Wang, X. Nie, T. X. Wu, and S. T. Wu, “Cell gap effect on the dynamics of liquid crystal phase modulators,” Mol. Cryst. Liq. Cryst. (Accepted, Nov. 2005). 2. H. Wang, T. X. Wu, S. Gauza, J. R. Wu and S. T. Wu, “A method to estimate the Leslie coefficients of liquid crystals based on MBBA data,” Liq. Cryst. 33, 91-98 (2006). 3. Y. H. Fan, H. Ren, X. Liang, H. Wang, and S. T. Wu, “Liquid crystal microlens arrays with switchable positive and negative focus lengths,” J. Display Technology 1, 151 (2005). 4. X. Nie, Y. H. Lin, T. X. Wu, H. Wang, Z. Ge, and S. T. Wu, “Polar anchoring energy measurement of vertically-aligned liquid crystal cells,” J. Appl. Phys. 97, 013516 (2005). 5.
C. H. Wen, S. Gauza, J. Li, H. Wang, and S. T.
Wu, “High contrast homeotropic alignment of difluorotolane liquid crystals,” Liq. Cryst. 32,
643-649 (2005). 6.
X. Liang, Y. Q. Lu, Y. H.
Wu, F. Du, H. Wang, and S. T. Wu, “Dual-frequency addressed variable
optical attenuator with submillisecond response time,” Jpn. J. Appl. Phys. 44, 1292-1295 (2005). 7.
H. Wang, T. X. Wu, X. Zhu, and S. T.
Wu, “Correlations between liquid crystal director reorientation and optical
response time of a homeotropic cell,” J. Appl. Phys. 95, 5502-5508 (2004). 8.
S. Gauza, H. Wang, C. H. Wen, S. T. Wu, A. J.
Seed, and R. Dabrowski, “High birefringence isothiocyanato
tolane liquid crystals,” Jpn. J.
Appl. Phys. 42, 3463-3466 (2003). 9.
H. Wang and L. Zheng, “Based on ActiveX
controls to realize the serial communication of FoxPro,” Modern Electronic Technique 102, 33-34 (1999). 10. H. Wang and L.
Zheng, “A practical interface of FoxPro with TSR,” Modern Electronic Technique 82, 27-29 (1997). 11.L. Sun and H. Wang, “Automatic Smith chart
software tools design and its applications,” Microwave Journal 2, 522-523 (1993). |
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1. H. Wang, X. Nie, T. X. Wu and S. T. Wu, “Cell gap effect on the dynamics of liquid crystal phase modulators,” 11th Int. Meeting on Optics of Liq. Cryst. 162, (Oct. 2005). 2. C. H. Wen, S. Gauza, J. Li, S. T. Wu, H. Wang, and X. Liang, “High-contrast homeotropic alignment of difluoro-tolane liquid crystals,” SID Tech. Digest 36, 1466-1469 (Boston, MA, May 23-27, 2005). 3. X. Nie, Y. H. Lin, H. Wang, Z. Ge, T. X. Wu, and S. T. Wu, “Polar anchoring energy measurement of vertically aligned liquid crystal cells,” SID Tech. Digest 36, 780-783 (Boston, MA, May 23-27, 2005). 4. T. X. Wu, Q. Hong, H. Wang, R. Lu, X. Zhu, Y. Huang, Z. Ge, and S. T. Wu, “Mathematical modeling of liquid crystal devices,” Int. Conf. Mathematical Methods in EM Theory (IEEE Cat. No. 04EX840) 82-87 (Ukraine, Sep. 14-17, 2004). 5. H. Wang, T. X. Wu, L. Zheng, and S. T. Wu, “Efficient dynamic analysis of liquid crystal devices,” IEEE AP-S/URSI 109 (Monterey, CA, June 23-27, 2004). 6. L. Zheng, T. X. Wu, H. Wang, W. Brokaw, and S. T. Wu, “Smart liquid crystal microstrip shifter,” IEEE AP-S/URSI 20 (Monterey, CA, June 23-27, 2004). 7. H. Wang, L. Zheng, J. Chen, T. X. Wu, and S. T. Wu, “Smart millimeter-wave devices using liquid crystal,” Proc. SPIE 5389, 476-485 (San Diego, CA, March 15-17, 2004). 8. S. T. Wu, S. Gauza, and H. Wang, “High birefringence liquid crystals for laser beam steering,” (Invited paper) IEEE/LEOS 2, 522-523 (Glasgow, Scotland, 2002).
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Problems
regarding this web site should be directed to Haiying Wang.
Last modified: 12/16/2005.