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Journal Publications:

1.     (Review paper) J. Xiong, K. Yin, K. Li, and S.T. Wu, “Holographic optical elements for augmented reality: principles, present status, and future perspectives,” Advanced Photonics Research 2, 2000049 (2021).

2.     Z. He, K. Yin, and S. T. Wu, “Peculiar polarization response in chiral liquid crystal stacks for multispectral camouflage,” Opt. Express 29(2), 2931-2939 (2021).

3.     J. Zou, Q. Yang, E.L. Hsiang, H. Ooishi, Z. Yang, K. Yoshidaya, and S. T. Wu, “Fast-Response Liquid Crystal for Spatial Light Modulator and LiDAR Applications,” Crystals 11, 93 (2021).

4.     T. Zhan, E.L. Hsiang, K. Li, and S. T. Wu, “Enhancing the Optical Efficiency of Near-Eye Displays with Liquid Crystal Optics,” Crystals 11, 107 (2021).

5.     J. Zou, Z. He, Q. Yang, K. Yin, K. Li, and S. T. Wu, “Large-angle two-dimensional grating with hybrid mechanisms,” Opt. Lett. 46(4), 920-923 (2021).

6.     Y. Li, T. Zhan, Z. Yang, C. Xu, P. L. LiKamWa, K. Li, and S. T. Wu, “Broadband cholesteric liquid crystal lens for chromatic aberration correction in catadioptric virtual reality optics,” Opt. Express 29(4), 6011-6020 (2021).

7.     Z. He, K. Yin, K.H. Fan-Chiang, and S. T. Wu, “Enlarging the Eyebox of Maxwellian Displays with a Customized Liquid Crystal Dammann Grating,” Crystals 11, 195 (2021).

8.     C. Zhang, Z. He, M. Mogensen, A. J. Gesquiere, C.H. Chen, T.L. Chiu, J.H. Lee, S.T. Wu, and Y. Dong, “A deep-dyeing strategy for ultra-stable, brightly luminescent perovskite-polymer composites,” J. Mater. Chem. C. 9, 3396-3402 (2021). DOI: 10.1039/d1tc00042j

9.     (Distinguished student paper) Z. He and S. T. Wu, “Compact, fast-response, continuous, and wide-angle laser beam steerers,” J. Soc. Inf. Display 29, 281-287 (2021). https://doi.org/10.1002/jsid.1006 

10.  (Distinguished student paper) E. L. Hsiang, Y. Li, Z. He, T. Zhan, C. Zhang, Y. F. Lan, Y. Dong, and S. T. Wu, “Doubling the optical efficiency of color-converted micro-light-emitting-diode displays with a patterned cholesteric liquid crystal polymer film,” J. Soc. Inf. Display 29, 288-297 (2021).
https://doi.org/10.1002/jsid.1008

11.  (Distinguished student paper) J. Xiong, Y. Li, K. Li, and S. T. Wu, “Aberration-free pupil steering Maxwellian display with wide-view broadband polarization converters,” J. Soc. Inf. Display 29, 298-304 (2021). DOI: 10.1002/jsid.1010

12.  (Distinguished student paper) Z. Yang, T. Zhan, and S. T. Wu, “Polarization independent liquid crystal-based refractive index sensor,” J. Soc. Inf. Display 29, 305-310 (2021). https://doi.org/10.1002/jsid.1011 

13.  (Distinguished student paper) K. Yin, Z. He, K. Li, and S. T. Wu, “Novel polarization-dependent combiner for wide field-of-view glass-like near-eye displays,” J. Soc. Inf. Display 29, 311-317 (2021). DOI: 10.1002/jsid.1012

14.  (Editor’s Pick) J. Xiong, Y. Li, K. Li, and S. T. Wu, “Aberration-free pupil steerable Maxwellian display for augmented reality with cholesteric liquid crystal holographic lenses,” Opt. Lett. 46(7), 1760-1763 (2021).

15.  K. Yin, Z. He, K. Li, and S. T. Wu, “Doubling the FOV of AR displays with a liquid crystal polarization-dependent combiner,” Opt. Express 29(8), 11512-11519 (2021).

16.  (Topical Review) K. Yin, Z. He, J. Xiong, J. Zou, K. Li, and S. T. Wu, “Virtual Reality and Augmented Reality Displays: Advances and Future Perspectives,” J. Phys. Photonics 3, 022010 (2021).

17.  M. Y. Deng, E. L. Hsiang, Q. Yang, B. S. Chen, F.Y. Lin, C. E. Wu, M. H. Lee, S. T. Wu, and C. L. Lin, “Reducing Power Consumption of Active-Matrix Mini-LED Backlit LCDs by Driving Circuit,” IEEE Trans. Electron Devices 68(5), 2347-2354 (2021).

18.  (Invited paper) E. L. Hsiang, Z. Yang, Q. Yang, Y. F. Lan, and S. T. Wu, “Prospects and challenges of mini-LED, OLED, and micro-LED displays,” J. Soc. Inf. Display 29(6), 446-465 (2021).

19.  J. Zou, T. Zhan, E. L. Hsiang, X. Du, X. Yu, K. Li, and S. T. Wu, “Doubling the optical efficiency of VR systems with a directional backlight and a diffractive deflection film,” Opt. Express 29(13), 20673-20686 (2021).

20.  (Review paper) J. Xiong and S. T. Wu, “Planar liquid crystal polarization optics for augmented reality and virtual reality: From fundamentals to applications,” eLight 1, 3 (2021).

21.  Z. He, K. Yin, and S.T. Wu, “Miniature planar telescopes for efficient, wide-angle, high-precision beam steering,” Light Sci. & Appl. 10, 134 (2021).

22.  J. Zou, Z. Yang, C. Mao, and S. T. Wu, “Fast-Response Liquid Crystals for 6G Optical Communications,” Crystals 11, 797 (2021).

23.  Y. Li, Q. Yang, J. Xiong, K. Li, and S. T. Wu, “Dual-depth augmented reality display with reflective polarization-dependent lenses,” Opt. Express 29(20), 31478-31487 (2021).

24.  (Review paper) J. Xiong, E.L. Hsiang, Z. He, T. Zhan, and S. T. Wu, “Augmented reality and virtual reality displays: emerging technologies and future perspectives,” Light Sci. & Appl. 10, 216 (2021).

25.  (Spotlight) E. L. Hsiang, Z. He, Z. Yang, Y. F. Lan, and S. T. Wu, “Tailoring the light distribution of micro-LED displays with a compact compound parabolic concentrator and an engineered diffusor,” Opt. Express 29(24), 39859-39873 (2021).

26.  (Editor’s Pick) E. L. Hsiang, Z. Yang, T. Zhan, J. Zou, H. Akimoto, and S. T. Wu, “Optimizing the display performance for virtual reality systems,” OSA Continuum 4(12), 3052-3067 (2021).

27.  (Review paper) Y. Li, Q. Yang, J. Xiong, K. Yin, and S. T. Wu, “3D displays in augmented and virtual realities with holographic optical elements [invited],” Opt. Express 29(26), 42696-42712 (2021).

Special Reports and Conference Papers:

1.      (Pathways) Nicole Saunders, “UCF continues its odyssey with optics,” Information Display (January/February) 46-50 (2021).

2.      (Frontline Technology) K. Yin, Z. He, and S. T. Wu, “Spotlighting Recent Advances in Liquid-Crystal Devices for Beam-Steering Applications,” Information Display (January/February) 9-13 (2021).

3.      (Invited paper) K. Yin, T. Zhan, J. Xiong, Z. He, K. Li, S. T. Wu, "Liquid crystal polarization volume gratings for near-eye displays," Advances in Display Technologies XI, Proc. SPIE 11708, 1170804 (2021); DOI:10.1117/12.2577992

4.      E.L. Hsiang, Z. He, Y. Huang, F. Gou, Y.F. Lan, and S.T. Wu, “Optimal chip size for reducing the power consumption of micro-LED displays,” Advances in Display Technologies XI 11708, 117080M (2021). DOI: 10.1117/12.2578671

5.      Y. Li, T. Zhan, Z. Yang, C. Xu, P. L. Likamwa, K. Li, and S. T. Wu, “Chromatic Aberration Correction Enabled by Broadband Cholesteric Liquid- Crystal Lens for Pancake Virtual-Reality Optics,” SID Symp. Digest 52, 424-426 (2021).

6.      Z. He, K. Yin, K. H. Fan-Chiang, and S. T. Wu, “Optimized Liquid-Crystal Dammann Grating for Eyebox Expansion in Maxwellian-View Displays,” SID Symp. Digest 52, 431-434 (2021).

7.      J. Zou, E.L. Hsiang, T. Zhan, K. Yin, Z. He, and S. T. Wu, “High-Dynamic-Range HUD with a Polarization Selective Optical Combiner,” SID Symp. Digest 52, 564-567 (2021).

8.      E.L. Hsiang, Q. Yang, Z. He, J. Zou, and S. T. Wu, “Ambient light and human vision effects on high-dynamic-range displays,” SID Symp. Digest 52, 646-649 (2021).

9.      T. Zhan, E.L. Hsiang, J. Zou, J. Xiong, K. Li, and S. T. Wu, “Light-Efficient Virtual Reality Displays,” SID Symp. Digest 52, 1246-1249 (2021).

10.   Q. Yang, J. Zou, H. Ooishi, Z. Yang, K. Yoshidaya, and S. T. Wu, “High Birefringence Liquid Crystal for Fast-Response Phase Modulators,” SID Symp. Digest 52, 1416-1419 (2021).

Patents:

1.    Y. Dong, Y. Wang, S. T. Wu, J. He, H. Chen, and J. Chen, “Methods of making highly stable perovskite-polymer composites and structures using same,” U.S. patent 10,907,092 (Feb. 2, 2021).

2.