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Education:
Honors & Awards:
Leadership
& Service:
Journal
Publications: 1.
F. Gou, R. Chen, M. Hu, J. Li, J. Li, Z. An, and S. T. Wu, Submillisecond-response polymer network liquid crystals
for mid-infrared applications, Opt. Express 26(23), 29735-29743 (2018). 2.
F. Gou, H. Chen, M.C. Li, S.L. Lee, and S. T. Wu, Motion-blur-free
LCD for high resolution virtual reality displays, J.
SID 26(4),
223-228 (2018) 3.
G. G.
Liu, K. Wang, Y. H. Lee, D. Wang, P. P. Li, F. Gou, Y. Li, C. Tu, S. T. Wu, and H. T. Wang, Measurement
of the topological charge and index of vortex vector optical fields with a
space-variant half-wave plate, Opt. Lett. 43(4), 823-826 (2018). 4. Z. He, Y. H. Lee, F. Gou, D. Franklin, D. Chanda, and S. T. Wu, Polarization-independent phase modulators enabled by two-photon polymerization, Opt. Express 25(26), 33688-33694 (2017). 5. Y. H. Lee, D. Franklin, F. Gou, G. Liu, F. Peng, D. Chanda, and S. T. Wu, Two-photon polymerization enabled multi-layer liquid crystal phase modulator, Sci. Rep. 7, 16260 (2017). 6. (Review
Paper) G.
Tan, Y. H. Lee, F. Gou, H. Chen, Y. Huang, Y.F. Lan,
C.Y. Tsai, and S. T. Wu, Review on polymer-stabilized short-pitch
cholesteric liquid crystal displays, J. Phys. D: Appl. Phys. 50, 493001 (2017). 7. F. Gou, F. Peng,
Q. Ru, Y. H. Lee, H. Chen, Z. He, T. Zhan, K. L. Vodopyanov,
and S. T. Wu, Mid-wave
infrared beam steering based on high-efficiency liquid crystal
diffractive waveplates, Opt. Express 25(19), 22404-22410 (2017). 8. (Review Paper) Y. H. Lee,
G. Tan, T. Zhan, Y. Weng, G. Liu, F. Gou, F. Peng, N.V. Tabiryan, S. Gauza, and S. T. Wu, Recent
progress in Pancharatnam-Berry phase optical
elements and the applications for virtual/augmented realities,
Optical Data Processing and Storage 3, 79-88 (2017). 9. G. Tan, Y.
H. Lee, F. Gou, M. Hu, Y. F. Lan,
C. Y. Tsai, and S. T. Wu, Macroscopic
model for analyzing the electro-optics of uniform lying helix cholesteric
liquid crystals, J.
Appl. Phys. 121,
173102
(2017). 10. F. Gou, H. Chen,
M. C. Li, S. L. Lee, and S. T. Wu, Submillisecond-response
liquid crystal for high-resolution virtual reality displays,
Opt. Express 25(7), 7984-7997 (2017). 11. F. Peng, H.
Chen, F. Gou, Y. H. Lee, M. Wand,
M.C. Li, S.L. Lee, and S. T. Wu, Analytical
equation for the motion picture response time of display devices,
J. Appl. Phys. 121, 023108 (2017). 12. H. Chen, F. Gou, and S. T. Wu, "A submillisecond-response nematic liquid crystal for augmented reality displays," Opt. Mater. Express 7(1), 195-201 (2017). 13. H. Chen, F.
Peng, F. Gou, Y. H. Lee, M. Wand,
and S. T. Wu, Nematic
LCD with motion picture response time comparable to organic LEDs, Optica 3(9), 1033-1034 (2016). 14. Y. H. Lee, F. Gou, F. Peng, and S.T. Wu, Hysteresis-free
and submillisecond-response polymer network liquid
crystal, Opt.
Express 24(13)
14793-14800 (2016). 15. F. Peng, F. Gou, H. Chen, Y. Huang, and S. T.
Wu, A submillisecond-response liquid crystal for color
sequential projection displays, J. SID 24(4), 241-245 (2016). 16.
(Special OSA News
Release) F. Peng, Y. Huang, F. Gou, M. Hu, J. Li, Z. An, and S. T. Wu, High performance
liquid crystals for vehicle displays, Opt. Mater. Express 6(3),
717-726 (2016). Conference
Proceedings: 1. (Distinguished
Student Paper Award) F. Gou,
H. Chen, M. C. Li, S. L. Lee, and S. T. Wu, Motion-blur-free LCD for High
Resolution Virtual Reality Displays, SID Symp. Digest
49 (1), 577-580 (2018, Los Angeles, California). 2. F. Gou,
Y. H. Lee, G. Tan, M. Hu, Y. F. Lan, C. Y. Tsai, and S. T. Wu, Submillisecond grayscale response time of a
uniform lying helix liquid crystal, SID Symp. Digest 48(1),
1822-1825
(2017, Los Angeles, California). 3.
G. Tan, Y. H. Lee, F. Gou, M. Hu,
Y.-F. Lan, C.-Y. Tsai, and S. T. Wu, "Figure of Merit
for Optimizing the Performance of Uniform Lying Helix Cholesteric Liquid
Crystals," SID Symp.
Digest 48(1), 490-493 (2017, Los Angeles, California). 4.
F. Peng, H. Chen, F.
Gou, Y. H. Lee, M. Wand, M. C. Li, S. L. Lee, and S. T. Wu, An LCD with submillisecond
motion picture response time, SID Symp. Digest 48(1), 1826-1829
(2017, Los Angeles, California). 5.
H. Chen, F. Gou, and S. T. Wu, Submillisecond-response nematic
LC for wearable displays, SID Symp. Digest 48(1),
377-380 (2017, Los Angeles, California). 6. (Invited talk) H. Chen, F. Peng, F.
Gou, M. Wand, and S. T. Wu, Fast-response LCDs for virtual reality applications, Proc. SPIE (2017, Photonics West). 7. (Distinguished Student Paper Award) F. Peng, H.
Chen, F. Gou, Y. Huang, and S. T.
Wu, A submillisecond-response liquid crystal for
color-sequential projection displays, SID Symp. Digest 47(1) 179-182 (2016, San Francisco, California). 8. F. Peng, Y.
Huang, F. Gou, S. T. Wu, M. Hu, J.
Li, and Z. An, High-performance liquid crystals for vehicular displays,
SID Symp. Digest 47(1) 754-756 (2016, San Francisco, California). Patents: 1. Y. H. Lee,
T. Zhan, G. Tan, F. Gou, F. Peng,
and S. T. Wu, Optical display system with enhanced resolution, methods,
and applications, US Patent 10,115,327 B1 (Oct. 30, 2018). Problems regarding this web site should be directed to Fangwang Gou. Last updated: 10/30/2018. |