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Publications |
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2022 |
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Journal Publications: 1.
J. Zou, S. Li, and S. T. Wu, “Gaze-Matched Pupil
Steering Maxwellian-view Augmented Reality Display with Large Angle
Diffractive Liquid Crystal Lenses,”
Adv. Photonics Research 3, 2100362 (2022). 2.
Z. Yang, E.L. Hsiang, Y. Qian, and S. T. Wu, “Performance comparison between mini-LED backlit
LCD and OLED display for 15.6-inch notebook computers,”
Appl. Sci. 12, 1239 (2022). 3.
(Perspective paper)
M. A. Triana, E. L. Hsiang, C. C. Zhang, Y. Dong, and S. T. Wu, “Luminescent Nanomaterials for Energy
Efficient Display and Healthcare,” ACS Energy Lett. 7,
1001-1020 (2022). 4.
(Cover) Y. Li, Z. Luo, and S. T. Wu, “High-precision
beam angle expander based on polymeric liquid crystal polarization lenses for
LiDAR applications,” Crystals 12, 349 (2022). 5.
J. Xiong, Q. Yang, Y. Li, and S. T. Wu, “Holo-imprinting
polarization optics with a reflective liquid crystal hologram template,”
Light Sci. Appl. 11, 54 (2022). 6.
(Distinguished student
paper) J. Zou, Z. Luo, and S. T. Wu, “Pupil steerable Maxwellian AR display with gaze matching,” J.
Soc. Inf. Disp. 30, 373-380 (2022). 7.
(Distinguished student
paper) K. Yin, Z. He, Y. Li, and S. T. Wu, “Foveated imaging by polarization multiplexing for compact near-eye
displays,” J. Soc. Inf. Disp. 30, 381-386
(2022). 8.
(Distinguished student
paper) Q. Yang, Z. Yang, Y.F. Lan, and S. T. Wu, “Low-diffraction transparent µLED displays with
optimized pixel structure,” J. Soc. Inf. Disp. 30, 395-403
(2022). 9.
(Review paper)
K. Yin, E.L. Hsiang, J. Zou, Y. Li, Z. Yang, Q. Yang, P.C. Lai, C.L. Lin, and
S. T. Wu, “Advanced liquid crystal
devices for augmented reality and virtual reality displays: Principles and
Applications,” Light Sci. Appl. 11, 161 (2022). 10.
(Editor’s pick)
S. Chen, J. Lin, Z. He, Y. Li, Y. Su, and S. T. Wu, “Planar Alvarez tunable lens based on polymetric
liquid crystal Pancharatnam-Berry optical elements,”
Opt. Express 30(19), 34655-34664 (2022). 11.
Z. Luo, J. Zou, E. Zhao, Y. Rao, and S. T. Wu,
“Correcting the wavelength-induced phase deviation
of Pancharatnam-Berry lenses,” Opt. Express 30(20),
36644-36650 (2022). 12.
J. Zou, Z. Luo, E. Zhao, Y. Rao, and S. T. Wu,
“Ultracompact virtual reality system with a
Pancharatnam–Berry phase deflector,”
Opt. Express 30(22), 39652-39662 (2022). 13.
(Review paper)
E. L. Hsiang, Z. Yang, Q. Yang, P. C. Lai, C. L. Lin, and S. T. Wu, “AR/VR light engines: perspectives and challenges,”
Adv. Opt. Photon. 14(4), 783-861 (2022). 14.
Y. Li, S. Chen, H. Liang, X. Ren, L. Luo, Y.
Ling, S. Liu, Y. Su, and S. T. Wu, “Ultracompact multifunctional metalens visor for
augmented reality displays,” PhotoniX 3, 29
(2022). 15.
Y. Qian, Z. Yang, Y. H. Huang, K. H. Lin, and
S. T. Wu, “Directional high-efficiency nanowire LEDs with reduced angular color
shift for AR and VR displays,” 1(12), 220021
(2022) Book Chapter: 1. Manuel A. Triana,
Rubén J. Camargo, Shin-Tson Wu, Raymond J. Lanzafame, and Yajie Dong, “Quantum
dot materials, devices, and their applications in photomedicine,” Ch. 6 in
“Quantum Materials, Devices, and Applications,” Edited by M. Henini and M. O.
Rodrigues (Elsevier, 2022). Special Reports and Conference Papers: 1.
Shin-Tson Wu: The 2022 SPIE
Maria Goeppert-Mayer Award in Photonics 2.
Shin-Tson Wu Named the
2022 Edwin H. Land Medal Recipient Patents: 1.
Y. H. Lee, F. Peng, G. Tan, Y. Weng, and S. T.
Wu, “Optical display system, method, and applications,”
U.S. patent 11,442,306 (Sept. 13, 2022). 2. |
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