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SCI论文
  1. Di Wang†, Yi-Long Li†, Xin-Ru Zheng, Ruo-Nan Ji*, Xin Xie, Kun Song, Fan-Chuan Lin, Nan-Nan Li, Zhao Jiang, Chao Liu, Yi-Wei Zheng, Shao-Wei Wang, Wei Lu, Bao-Hua Jia, Qiong-Hua Wang*, Decimeter-depth and polarization addressable color 3D meta-holography, Nature Communications, 15, 8242, 2024.

  2. Lin-Bo Zhang, Yi-Jian Liu, Wei-Ze Li, Fan Chu, Han-Le Zhang*, Yan Xing, Qiong-Hua Wang*, A 2D/3D convertible integral imaging display with enhanced depth of field, Optics and Lasers in Engineering, 181: 108393, 2024.

  3. Fan Chu, Yuqiang Guo, Yuxian Zhang, Di Wang, and Qiong-Hua Wang*, Accurate phase modulation scheme in a micropixel liquid crystal on silicon with multiple polymer walls, ACS Applied Optical Materials, 2, 1330-1337, 2024.

  4. Han-Le Zhang †*, Yi-Jian Liu †, Xue-Rui Wen, Wei-Ze Li and Yan Xing**, Floating depth and viewing angle enhanced integral imaging display system based on a transmissive mirror device, Optics Express, 32, 22052-22066, 2024. 

  5. Xue-Rui Wen, Yi-Jian Liu, Wei-Ze Li, Yan Xing, Han-Le Zhang*, and Qiong-Hua Wang*, Large viewing angle integral imaging 3D display system based on symmetrical compound lens array, Optics Express, 32, 5705-5717, 2024.

  6. Yi-Jian Liu, Xue-Rui Wen, Xiao-Shuai Hu, Wei-Ze Li, Yan Xing, Chao Liu, Han-Le Zhang*, and Qiong-Hua Wang*, High-Resolution Integral Imaging Display Using Targeted Optimized Compound Lens Array for Voxel Aliasing Elimination, Laser & Photonics Reviews, 18(7), 202400182, 2024.

  7. Ye-Hao Hou, Qian Huang, Zhao-Song Li, Fan-Chuan Lin, Chuan Shen, Di Wang*, Qiong-Hua Wang*, Color spherical holographic display system based on conformal diffraction principle, Optics and Laser Technology, 177, 111056, 2024.

  8. Zhao Jiang, Yi Zheng, Xin Wang, You-Ran Zhao, Rong-Ying Yuan, Chao Liu*, and Qiong-Hua Wang*, Continuous optical zoom telescopic system based on liquid lenses, Optics Express, 32(9): 15269-15279, 2024.

  9. Jin-Bo Xu, You-Ran Zhao, Rong-Ying Yuan, Xiao-Wei Li, Chao Liu*, Qiong-Hua Wang*, Electrowetting liquid lens integrating adaptive liquid iris, Optics and Laser Technology, 169, 110023, 2024.

  10. Qian Huang, Ye-Hao Hou, Fan-Chuan Lin, Zhao-Song Li, Min-Yang He, Di Wang*, Qiong-Hua Wang*, Fast point-based hologram generation method using high-frequency information extraction, Optics and Lasers in Engineering, 176, 108104, 2024.

  11. Di Wang, Zhao-Song Li,Yi-Zheng,You-Ran Zhao,Chao Liu, Jin-Bo Xu, Yi-Wei Zheng, Qian Huang,Chen-Liang Chang,Da-Wei Zhang,Song-Lin Zhuang and Qiong-Hua Wang*, Liquid lens based holographic camera for real 3D scene hologram acquisition using end-to-end physical model-driven network, Light: Science & Applications, 13, 62, 2024.

  12. Yi-Wei Zheng, Qian Huang, Zhao-Song Li, Ye-Hao Hou, Di Wang*, and Qiong-Hua Wang*, Large-depth-range holographic display system with accurate depth sensitivity, Optics and Laser Technology, 174, 110589, 2024.

  13. Di Wang†, Yi-Long Li†, Fan Chu†, Nan-Nan Li, Zhao-Song Li,Sin-Doo Lee, Zhong-Quan Nie, Chao Liu, and Qiong-Hua Wang*, Color liquid crystal grating based color holographic 3D display system with large viewing angle, Light: Science & Applications, 13, 16, 2024.

  14. Yi Zheng, Xin Wang, Zhao Jiang, Jin-Bo Xu, Rong-Ying Yuan, You-Ran Zhao, Hao-Ran Zhang, Chao Liu*, and Qiong-Hua Wang*, Adaptive multiscale microscope with fast zooming,extended working distance,and large field of view, Light: Advanced Manufacturing, 5, 8, 2024.

  15. Jin-Bo Xu, Rong-Ying Yuan, You-Ran Zhao, Chao Liu*, Qiong-Hua Wang*, Three-phase electrowetting liquid lens with deformable liquid iris, Optics Express, 31(26), 43416-43426, 2023.

  16. Chao Liu, Yi Zheng, Rong-Ying Yuan, Zhao Jiang, Jin-Bo Xu, You-Ran Zhao, Xin Wang, Xiao-Wei Li, Yan Xing, and Qiong-Hua Wang*, Tunable liquid lenses: emerging technologies and future perspectives, Laser & Photonics Reviews, 17(11), 2300274, 2023.

  17. Rong-Ying Yuan, Xiao-Li Ma, Yi Zheng, Zhao Jiang, Xin Wang, Chao Liu*, and Qiong-Hua Wang*, 3D microscope image acquisition method based on zoom objective, Optics Express, 31(10), 16067-16080, 2023.

  18. Tian-Zi Shen, Kurugamage Nuwan Asela Perera, Aurangzeb Rashid Masud, P. A. N. S. Priyadharshana, Joo-Young Park, Qiong-Hua Wang, Seung-Ho Hong, Jang-Kun Song*, A dual-frequency photonic crystal nanocolloid with hue- and brightness-tunable structural colors, Cell Reports Physical Science, 4, 4, 2023.

  19. Yuxian Zhang, Hiroyuki Yoshida*, Qiong-Hua Wang*, and Masanori Ozaki, Electro-optics of blue phase liquid crystal in field-perpendicular direction, Applied Physics Letters, 122(16), 161107, 2023.

  20. Shu‑Bin Liu, Bing‑Kun Xie, Rong‑Ying Yuan, Meng‑Xuan Zhang, Jian‑Cheng Xu, Lei Li*, and Qiong‑Hua Wang*, Deep learning enables parallel camera with enhanced-resolution and computa-tional zoom imaging, PhotoniX, 4(17), 202301, 2023.

  21. Di Wang†, Nan-Nan Li†, Yi-Long Li, Yi-Wei Zheng, Zhong-Quan Nie, Zhao-Song Li, Fan Chu*, and Qiong-Hua Wang*, Large viewing angle holographic 3D display system based on maximum diffraction modulation, Light: Advanced Manufacturing, 4, 18, 2023.

  22. Chao Liu, Yi Zheng, Fan Chu, Yi-Wei Zheng, and Qiong-Hua Wang*, Adaptive micro-projection system based on liquid lens, Optics & Laser Technology, 167:109734, 2023.

  23. Yan Xing, Xing-Yu Lin, Lin-Bo Zhang, Yun-Peng Xia, Han-Le Zhang, Hong-Yu Cui, Shuang Li, Tong-Yu Wang, Hui Ren, Di Wang, Huan Deng, and Qiong-Hua Wang*, Integral imaging-based tabletop light field 3D display with large viewing angle, Opto-Electronic Advances, 6, 220178, 2023.

  24. Jin-Bo Xu, You-Ran Zhao, Chao Liu* and Qiong-Hua Wang*, Triple-layer spherical electrowetting liquid lens with large-aperture and high zoom ratio, Optics and Lasers in Engineering, 160, 107311, 2023.

  25. Di Wang†, Zhao-Song Li†, Yi-Wei Zheng†, Nan-Nan Li, Yi-Long Li, and Qiong-Hua Wang*, High-quality holographic 3D display system based on virtual splicing of spatial light modulator, ACS Photonics, 10(7), 2297-2307, 2023.

  26. Zhao-Song Li, Yi-Wei Zheng, Yi-Long Li, Di Wang and Qiong-Hua Wang*, Method of color holographic display with speckle noise suppression, Optics Express, 30(14): 25647–25660, 2022.

  27. Yi-Wei Zheng, Di Wang*, Yi-Long Li, Nan-Nan Li and Qiong-Hua Wang* , Holographic near-eye display system with large viewing area based on liquid crystal axicon, Optics Express, 30(19), 34106-34116, 2022.

  28. Xiao-Li Ma, Han-Le Zhang*, Rong-Ying Yuan, Tong-Yu Wang, Min-Yang He, Yan Xing, and Qiong-Hua Wang*, Depth of field and resolution-enhanced integral imaging display system, Optics Express, 30(25): 44580-44593, 2022.

  29. Han-Le Zhang, Xiao-Li Ma, Xing-Yu Lin, Yan Xing, and Qiong-Hua Wang*, System to eliminate graininess of integral imaging 3D display by using a transmissive mirror device, Optics Letters, 47(18): 4628-4631, 2022.

  30. Chao Liu†, Zhao Jiang†, Xin Wang, Yi Zheng, Yi-Wei Zheng, and Qiong-Hua Wang*, Continuous optical zoom microscope with extended depth of field and 3D reconstruction, PhotoniX, 3(20), 2022.

  31. Yu-Xian Zhang, Zhou Yang*, Qiong-Hua Wang*, Optical sensor for butylamine vapour based on the photonic structure infiltrated by liquid crystal, Liquid Crystals, 49: 1524-1530, 2022.

  32. Xiao-Li Ma, Rong-Ying Yuan, Lin-bo Zhang, Min-Yang He, Han-Le Zhang, Yan Xing*, and Qiong-Hua Wang*, Augmented reality autostereoscopic 3D display based on sparse reflection array,Optics Communications, 510, 127913, 2022.

  33. Chao Liu, Yi Zheng, Nan-Nan Li, Ye-Hao Hou, Zhao Jiang, and Qiong-Hua Wang*, Real scene acquisition and holographic near-eye display system based on a zoom industrial endoscope, Optics Express, 30(18):33170-33181, 2022.

  34. Yi-Long Li†, Nan-Nan Li†, Di Wang*, Fan Chu, Sin-Doo Lee, Yi-Wei Zheng and Qiong-Hua Wang*, Tunable liquid crystal grating based holographic 3D display system with wide viewing angle and large size, Light: Science & Applications, 11, 188, 2022.

  35. Rui Li, Han-Le Zhang, Fan Chu, and Qiong-Hua Wang*, Compact integral imaging 2D/3D compatible dis-play based on liquid crystal micro-lens array. Liquid Crystals, 49(4): 512-522, 2022.

  36. Jun Wang, Yang Wu, Xiangli Lei, Qionghua Wang*, “Bidirectional phase compensation for curved holo-gram generation in holographic display”, IEEE Photonics Technology Letters 34(11), 579-582, 2022.

  37. Jin-Bo Xu, You-Ran Zhao, Chao Liu* and Qiong-hua Wang*, Non-aqueous organic solution based a large-aperture spherical electrowetting liquid lens with a wide tunable focal length range, Journal of Materials Chemistry C, 10, 6778-6793, 2022.

  38. Yu-Qiang Guo, Fan Chu, Bing-Xiang Li, Yu-Xian Zhang, Tian-Zi Shen, Wei Duan, Chao Liu, Yu-Bao Sun*, and Qiong-Hua Wang*. Unidirectional collective transport of microspheres in nematic liquid crystal by electrically tunable reorientation, Journal of Molecular Liquids, 357, 119136, 2022.

  39. Yu-Xian Zhang, Hiroyuki Yoshida*, Fan Chu, Yu-Qiang Guo, Zhou Yang, Masanori Ozaki and Qiong-Hua Wang*, Three-dimensional lattice deformation of blue phase liquid crystals under electrostriction, Soft Matter, 18, 3328–3334, April 6, 2022 (Front Cover).

  40. Wei Duan, Ling-Ling Ma, Peng Chen, Wei Hu, Qiong-Hua Wang* and Yan-Qing Lu*, Patterned optical anisotropic film for generation of non-diffracting vortex beams, Applied Physics Letters, 120(3), 031101, 2022.

  41. Di Wang, Nan-Nan Li, Zhao-Song Li, Chun Chen, Byoungho Lee and Qiong-Hua Wang*, Color curved hologram calculation method based on angle multiplexing, Optics Express, 30(2), 3157-3171, 2022.

  42. Nan-Nan Li, Chun Chen, Byoungho Lee, Di Wang*, and Qiong-Hua Wang*, Speckle noise suppression algorithm of holographic display based on spatial light modulator (Invited), Frontiers in Photonics, 2, 825610, 2022.

  43. Rui Li, Fan Chu, Li-Lan Tian, Xiao-Qing Gu, Xiang-Yu Zhou, and Qiong-Hua Wang*, Liquid crystal lenticular lens array with extended aperture by using gradient refractive index compensation, Liquid Crystals, 48(3), 378-384, 2021.

  44. Yi Zheng, Di Wang, Zhao Jiang, Chao Liu*, and Qiong-Hua Wang*, Continuous zoom compound eye imaging system based on liquid lenses, Optics Express, 29(23), 37565-37579, Nov. 8, 2021.

  45. Di Wang, Nan-Nan Li, Yi-Long Li, Yi-Wei Zheng, and Qiong-Hua Wang*, Curved hologram generation method for speckle noise suppression based on stochastic gradient descent algorithm, Optics Express, 29(26), 42650-42662, Dec. 20, 2021.

  46. Di Wang, Jin-Bo Xu, Rong-Ying Yuan, You-Ran Zhao, Chao Liu, and Qiong-Hua Wang*, High stability liquid lens with optical path modulation function, Optics Express, 29(17), 27104-27117, 2021.

  47. Zhao Jiang, Di Wang, Yi Zheng, Chao Liu*, and Qiong-Hua Wang*, Continuous optical zoom microscopy imaging system based on liquid lens, Optics Express, 29(13), 20322-20335, June 21, 2021.

  48. Fan Chu, Yu-Qiang Guo, Yu-Xian Zhang, Wei Duan, Han-Le Zhang, Li-Lan Tian, Lei Li, and Qiong-Hua Wang*, Four-mode 2D/3D switchable display with a 1D/2D convertible liquid crystal lens array. Optics Express, 29(23), 37464-37475, November 8, 2021.

  49. Rong-Ying Yuan, Xiao-Li Ma, Fan Chu, Guang-Xu Wang, Min-Yang He, Chao Liu*, and Qiong-Hua Wang*, Optofluidic lenticular lens array for 2D/3D switchable display, Optics Express, 29(23), 37418-37428, Nov 8, 2021.

  50. Chen Chun, Byounghyo Lee, Nan-Nan Li, Minseok Chae, Di Wang, Qiong-Hua Wang, and Byoungho Lee*, Multi-depth hologram generation using stochastic gradient descent algorithm with complex loss function, Optics Express, 29(10), 15089-15103, 2021.

  51. Lei Li, Feng-Lin Kuang, Jin-Hui Wang, Yin Zhou, and Qiong-Hua Wang*, Zoom liquid lens em-ploying a multifocal Fresnel zone plate, Optics Express, 29(2), 2135-2141, 2021.

  52. Li-Lan Tian, Fan Chu*, Wu-Xiang Zhao, Lei Li, and Qiong-Hua Wang, Fast responsive 2D/3D switchable display using a liquid crystal microlens array, Optics Letters, 46(23), 5870-5873, 2021.

  53. Xin Yang, Hong-Bo Zhang, Qiang Song, Guo-Bin Ma, Zi-Mo Liu, Fu-Yang Xu, and Qiong-Hua Wang, Fast method for high-resolution holographic 3D display with white light as illumination, Journal of Optics, 23,105601, 2021.

  54. Xiao-Ming Ma, Yan Xing*, Jia-Chen Zheng, Xiao-Wei Li, and Qiong-Hua Wang**, A real-time interactive rendering method for 360° tabletop integral imaging 3D display, Journal of the Society for Information Display, 29, 679-688, September 6, 2021.

  55. Yun-Peng Xia, Shuang Li, Hui Ren, Huan Deng, and Yan Xing*, High-efficient rendering to generate annular sector elemental image array for tabletop integral imaging three-dimensional display, Journal of the Society for Information Display, 29, 632-641, August 2, 2021.

  56. Sen-Lin Pang, Tian-Hao Wang, Fei-Yan Zhong, Lin-Bo Zhang, Huan Deng, and Yan Xing*, Tabletop integral imaging 3D display system based on annular point light source, Displays, 69, 102029, May 28, 2021.

  57. Fan Chu, Di Wang, Chao Liu, Lei Li, Qiong-Hua Wang*, Multi-view 2D/3D switchable display with cylindrical liquid crystal lens array, Crystals, 11(6), 715, June 21, 2021.

  58. Min-Yang He, Di Wang, Yan Xing*, Yi-Wei Zheng, Han-Le Zhang, Xiao-Li Ma, Rong-Ying Yuan, Qiong-Hua Wang*, Compact and lightweight optical see-through holographic near-eye display based on holographic lens, Displays, 70, 102104, 25 September 2021.

  59. Di Wang, Yi-Wei Zheng, Nan-Nan Li, and Qiong-Hua Wang*, Holographic display system to suppress speckle noise based on beam shaping, Photonics, 8(6), 204, 2021.

  60. Shuang Li, Qiong-Hua Wang*, Yun-Peng Xia, Yan Xing, Hui Ren, Huan Deng, Integral imaging 3D display system with improved depth of field using a colloidal scattering layer, Optics Communications, 484, 126680, 2021.

  61. Ying Wang,Xiao-Wei Li,and Qiong-Hua Wang* Integral imaging based optical image encryption using CA-DNA algorithm, IEEE Photonics Journal,13(2), 7900812-1-12, April 2021.

  62. Feng‑Lin Kuang, Rong‑Ying Yuan, Qiong‑Hua Wang* and Lei Li*, Large zooming range adaptive microscope employing tunable objective and eyepiece, Scientific Reports, 10 14644, 2020.

  63.  Han-Le Zhang, Huan Deng, Hui Ren, Xin Yang, Yan Xing, Da-Hai Li, and Qiong-Hua Wang*, Method to eliminate pseudoscopic issue in integral imaging 3D display by using transmissive mirror device and light filter, Optics Letters, 45(2): 351-354, 2020.

  64. Shu-Bin Liu, Jin-Hui Wang, Rong-Ying Yuan, Wu-Xiang Zhao, Lei Li*, and Qiong-Hua Wang*, Real-time and ultrahigh accuracy image synthesis algorithm for full field of view imaging system, Scientific Reports, 10 12389, 2020.

  65.  Jian Xue, Qiong-Hua Wang∗, Lei Li∗, Telescope objective with tunable field of view, Optics Communications, 475 126271, 2020.

  66. Rui Li, Fan Chu, Hu Dou, Li-Lan Tian, Wen-Yi Hou, Lei Li, and Qiong-Hua Wang*, Double-layer liquid crystal lens array with composited dielectric layer, Liquid Crystals, 47(2), 248-254, 2020.

  67. Xiang-Yu Zhou, Fan Chu, Li-Lan Tian, Rui Li, Wen-Yi Hou, Xiao-Qing Gu, and Qiong-Hua Wang, A single-cell-gap transflective blue-phase liquid crystal display based on fringe in-plane switching electrodes, Journal of the Society for Information Display, 28(9), 759-766, 2020.

  68. Yan Xing, Yun-Peng Xia, Shuang Li, Hui Ren, and Qiong-Hua Wang, Annular sector elemental image array generation method for tabletop integral imaging 3D display with smooth motion parallax, Optics Express 28(23), 34706-34716, 2020.

  69. Rui Li, Fan Chu, Li-Lan Tian, Xiao-Qing Gu, Xiang-Yu Zhou, and Qiong-Hua Wang*, Short focal length tunable liquid crystal lenticular lens array based on fringe field effect, Journal of the Society for Information Display, 28, 793-800, 2020.

  70. Shu-Bin Liu, Jin-Hui Wang, Rong-Ying Yuan, Wu-Xiang Zhao, Lei Li* and Qiong-Hua Wang*, Real-time and ultrahigh accuracy image synthesis algorithm for full field of view imaging system, Scientific Reports, 10, 12389,2020.

  71. Huan Deng, Sai Li, Lei Wang, Yan Xing, Qiong-Hua Wang*, Dual-view integral imaging system with wide viewing angle and high spatial resolution, IEEE Photonics Journal, 12(3), 1-11, 2020.

  72. Yi-Long Li, Di Wang, Nan-Nan Li, and Qiong-Hua Wang*, Fast hologram generation method based on the optimal segmentation of a sub-CGH, Optics Express, 28(21), 32185-32198, 2020.

  73. Nan-Nan Li, Di Wang, Yi-Long Li, and Qiong-Hua Wang*, Method of curved composite hologram generation with suppressed speckle noise, Optics Express, 28(23), 34378-34389, 2020.

  74. Shu-Feng Lin, Philippe Gentet, Di Wang, Seung-Hyun Lee, Eun-Soo Kim and Qiong-Hua Wang, Simply structured full-color holographic three-dimensional display using angular-compensating holographic optical element, Optics and Lasers in Engineering 138, 106404,2020.

  75. Xin Yang, Fu-Yang Xu, Han-Le Zhang, Hong-Bo Zhang, Kai Huang, Yong Li*, and QiongHua Wang*, High-resolution hologram calculation method based on light field image rendering, Applied Sciences, 10(3), 819, 2020.

  76. Fan Chu, Li-Lan Tian, Rui Li, Xiao-Qing Gu, Xiang-Yu Zhou, Di Wang and Qiong-Hua Wang, Adaptive nematic liquid crystal lens array with resistive layer. Liquid Crystals, 47(4), 563-571, 2020.

  77. Fan Chu, Li-Lan Tian, Hu Dou, Rui Li, Wen-Yi Hou, and Qiong-Hua Wang, Simulation study of single-cell-gap transflective liquid crystal display with nonuniform potential. Journal Society for Information Display, 28(2), 148-156, 2020.

  78. Chao Liu, Di Wang,Qiong-Hua Wang*, Yan Xing, Multifunctional optofluidic lens with beam steering, Optics Express, 28(5), 7734-7745, 2020.

  79. Chao Liu, Di Wang, Guang-Xu Wang, Zhao Jiang, Qiong-Hua Wang*, 1550 nm infraredisible light switchable liquid optical switch, Optics Express, 28(6), 8974-8984, 2020.

  80. Di Wang, Chao Liu, Chuan Shen, Yan Xing, and Qiong-Hua Wang*, Holographic capture and projection system of real object based on tunable zoom lens, PhotoniX, 1(1), 6, 2020.

  81. Hui Ren, Li‐Xia Ni, Hai‐Feng Li, Xin‐Zhu Sang, Xin Gao, Qiong‐Hua Wang*, Review on tabletop true 3D display, Journal of Society for Information Display,  28(1), 75-91, 2020.

  82. Li-Lan Tian, Fan Chu, Hu Dou, Lei Li and Qiong-Hua Wang*, Short-focus nematic liquid crystal microlens array with a dielectric layer, Liquid Crystals, 47(1), 72-82, 2020.

  83. Shu-Feng Lin, Di Wang, Qiong-HuaWang*, and Eun-Soo Kim, Full-color holographic 3D display system using off-axis color-multiplexed-hologram on single SLM, Optics and Lasers in Engineering,126, 105898, 2020.

  84. Xin Yang, Ping Song, Hong-Bo Zhang, and Qiong-Hua Wang*, Full-color computer-generated holographic near-eye display based on white light illumination, Optics Express, 27(26), 38236-38249, 2019.

  85. Xiao-Wei Li, Ying Wang, Qiong-Hua Wang*, Seok-Tae Kim, and Xin Zhou, Copyright protection for holographic video using spatiotemporal consistent embedding strategy, IEEE Transactions on Industrial Informatics, 15 (11), 6187-6197, 2019.

  86. Jin-Hui Wang, Xin Zhou, Lin Luo,Rong-Ying Yuan, and Qiong-Hua Wang*, Tunable liquid lens integrated with aspheric surface, Optics Communications, 445(1), 56-63, 2019.

  87. Jin-Hui Wang, Wei-pu Tang, Lin-yang Li, Liang Xiao, Xin Zhou, and Qiong-Hua Wang*, Hybrid driving variable-focus optofluidic lens, Optics Express, 27(24), 35203-35215, 2019.

  88. Qiang Li, Huan Deng*, Sen-Lin Pan, Wen-Hao Jiang, and Qiong-Hua Wang, A reflective augmented reality integral imaging 3D display by using a mirror-based pinhole array, Applied Science, 9, 3124, 2019.

  89. Cong Chen, Huan Deng*, Qiong-Hua Wang*, and Yu-Tong Song, Measurement and analysis on the accommodation responses to real-mode, virtual-mode, and focused-mode integral imaging display, Journal of the Society for Information Display, 759, 1-7, 2019.

  90. Rui Li, Fan Chu, Hu Dou, Li-Lan Tian, Wen-Yi Hou, Lei Li, and Qiong-Hua Wang*, A blue-phase liquid crystal lens array based on dual square ring-patterned electrodes, Liquid Crystals, 46(8), 1266-1272, 2019.

  91. Di Wang, Dan Xiao, Nan-Nan Li, Chao Liu, and Qiong-Hua Wang*, Holographic display system based on effective area expansion of SLM, IEEE Photonics Journal, 11(6), 2019.

  92. Di Wang, Dan Xiao, Nan-Nan Li, Chao Liu, and Qiong-Hua Wang*, Holographic display system based on effective area expansion of SLM, IEEE Photonics Journal, 11(6), 2019.

  93. Di Wang, Dan Xiao, Su-Juan Liu, Chao Liu, and Qiong-Hua Wang*,Color holographic display system based on utilization of effective viewing area, Journal of the Society for Information Display, 27(10), 646-653, 2019.

  94. Chao Liu, Di Wang, Qiong-Hua Wang*, A multidirectional beam steering reflector actuated by hydraulic control,Scientific Reports, 9, 5086, 2019.

  95. Chao Liu, Di Wang, Qiong-Hua Wang*, Jian-Cheng Fang*, Electrowetting-actuated multifunctional optofluidic lens to improve the quality of computer-generated holography, Optics Express, 27(9), 12963-12975, 2019.

  96. Chao Liu, Di Wang, Qiong-Hua Wang*, Variable aperture with graded attenuation combined with adjustable focal length lens, Optics Express, 27(10),14075-14084, 2019.

  97. Chao Liu, Di Wang, Qiong-Hua Wang*, Holographic display system with adjustable viewing angle based on multi-focus optofluidic lens, Optics Express, 27(13),18210-18221, 2019.

  98. Di Wang, Chao Liu, and Qiong-Hua Wang*, Holographic zoom micro-projection systembased on three spatial light modulators, Optics Express, 27(6), 8048-8058,2019.

  99. Di Wang, Chao Liu, and Qiong-Hua Wang*, Method of chromatic aberration eliminationin holographic display based on zoomable liquid lens, Optics Express, 27(7),10058-10066, 2019.

  100. Di Wang, Chao Liu, and Qiong-Hua Wang*, Adjustable optical slit based on the phasetype spatial light modulator, IEEE Photonics Journal, 11(2), 7000408, 2019.

  101. Di Wang, Chao Liu, Shu-Feng Lin, and Qiong-Hua Wang*,Holographic display technology based on liquid crystal devices, Journal of theSociety for Information Display, 2019.

  102. Di Wang, Nan-Nan Li, Chao Liu, and Qiong-Hua Wang*,Holographic display method to suppress speckle noise based on effective utilization of two spatial light modulators, Optics Express, 27(8),11617-11625, 2019.

  103. Di Wang, Chao Liu, Fan Chu, and Qiong-Hua Wang*, Full color holographic display system based on intensity matching of reconstructed image, Optics Express, 27(12), 16599-16612, 2019.

  104. Su-Juan Liu, Di Wang, and Qiong-Hua Wang*,Speckle noise suppression method in holographic display using time multiplexing technique, Optics Communications, 436, 253-257, 2019.

  105. Dan Xiao, Xiao-Wei Li, Di Wang, Ying Wang, and Qiong-Hua Wang*,Three-dimensional holographic hiding and display using layer-oriented theorem,Optics Communications, 453, 124340, 2019.

  106. Nan-Nan Li, Di Wang, Chao Liu, Shu-Feng Lin, and Qiong-Hua Wang*,Large-size holographic display method based on effective utilization of two spatial light modulators, Optics Communications, 453, 124311, 2019.

  107. Yan Xing, Qiong-Hua Wang*, Ling Luo, Hui Ren, and Huan Deng, High-performance dual-view 3D display system based on integral imaging, IEEE Photonics Journal, 11(1), 1–12, 2019.

  108. Yan Xing, Qiong-Hua Wang*, Hui Ren, Ling Luo, Huan Deng, and Da-Hai Li, Optical arbitrary-depth refocusing for large-depth scene in integral imaging display based on reprojected parallaximage, Optics Communications, 433, 209–214, 2019.

  109. Han-Le Zhang, Huan Deng, Hui Ren, Min-Yang He, Da-Hai Li*, and Qiong-Hua Wang*,See-through 2D/3D compatible integral imaging display system using lens-array holographic optical element and polymer dispersed liquid crystal, OpticsCommunications, 456, 124615, 2019.

  110. Zhi-Bin Fan+, Hao-Yang Qiu+, Han-Le Zhang+, Xiao-Ning Pang, Li-Dan Zhou, Lin Liu, Hui Ren, Qiong-Hua Wang*, and Jian-WenDong*, A broadband achromatic metalens array for integral imaging in the visible, Light: Science & Applications, 8(67), 2019.

  111. Han-Le Zhang, Huan Deng, Jiao-Jiao Li, Min-Yang He, Da-Hai Li*, and Qiong-Hua Wang*, Integral imaging-based 2D/3D convertible display system by using holographic optical element and polymer dispersed liquid crystal, Optics Letters, 44(2), 387-390,2019.

  112. Han-Le Zhang, Huan Deng*, Min-Yang He, Da-Hai Li, and Qiong-Hua Wang*, Dual-view integral imaging 3D display based on multiplexed lens-array holographic opticalelement, Applied Sciences, 9(18), 3852, 2019.

  113. Huan Deng, Cong Chen, Min-Yang He, Jiao-Jiao Li, Han-Le Zhang, and Qiong-Hua Wang*, High resolution augmented reality 3D display with use of a lenticular lens array holographic optical element, Journal Optics Society America A. 36(4), 588-593,2019.

  114. Hui Ren, Qiong-Hua Wang*, Yan Xin, Min Zhao, Ling Luo, Huan Deng, Super-multiview integral imaging scheme based on sparse camera array and CNN super-resolution, Applied Optics, 58, A190-A196,2019.

  115. Qiong-HuaWang, Liang Xiao, Chao Liu and Lei Li*, Optofluidic variable optical pathmodulator, Scientific Reports, 9, 7082, 2019.

  116. Lin-Yang Li, Rong-Ying Yuan, Jin-Hui Wang, Lei Li* and Qiong-Hua Wang*, Optofluidic lens based on electrowetting liquid piston, Scientific Reports, 9, 13062, 2019.

  117. Lei Li, Liang Xiao, Jin-hui Wang, and Qiong-Hua Wang*, Movable electrowetting optofluidic lens for optical axial scanning in microscopy, Opto-ElectronicAdvances, 2(2), 180025, 2019.

  118. Li-Lan Tian, Fan Chu, Hu Dou, Lei Li and Qiong-Hua Wang*, Electrically tunable-focusing liquid crystal microlens array with simple electrode,Crystals, 9(8), 431, 2019.

  119. Li-Lan Tian, Fan Chu, Hu Dou, Lei Li and Qiong-Hua Wang*, Transflective blue-phaseliquid crystal display with dielectric protrusion, Liquid Crystals, 46(9),1353-1358, 2019.

  120. Fan Chu, Hu Dou, Li-Lan Tian, Lei Li and Qiong-Hua Wang*, Polarisation-independent blue-phase liquid crystal microlens array with different dielectric layer,Liquid Crystals, 46(8),1273-1279, 2019.

  121. Fan Chu, Qiong-Hua Wang*, Hu Dou, Li-Lan Tian, Rui Li and Wen-Yi Hou, A single-cell-gap transflective liquid crystal display with a vertically alignedcell, Liquid Crystals, 46(8), 1183-1190, 2019.

  122. Fan Chu, Hu Dou, Li-Lan Tian, Rui Li, Wen-Yi Hou, Lei Li and Qiong-Hua Wang*, A simple transflective liquid crystal display with composite dielectric layer, Liquid Crystals, 46(12), 1-9, 2019.

  123. Xiaowei Li, Ying Wang, Qiang Li, Qiong-Hua Wang*, Jian-Zhong Li, Seok-Tae Kim, and Xin Zhou, Optical 3D object security and reconstruction using pixel evaluated integral imaging algorithm, Optics Express, 27(14), 20720-20733, 2019.

  124. Xiao-wei Li, Ying Wang, and Qiong-Hua Wang*, Modified integral imaging reconstructionand encryption using an improved SR reconstruction algorithm, Optics and Lasersin Engineering, 112, 162-169, 2019.

  125. Xin Yang, Hong-Bo Zhang, and Qiong-Hua Wang*, A fast computer-generated holographic method for VR and AR near-eye 3D display. Applied Sciences, 9(19), 4164, 2019.

  126. Jun Wang, Jian-Qing Zeng, Xu-dong Chen, Qiong-Hua Wang*, Yu-Hen Hu, Asymmetriccrypto system using improved equal modulus decomposition in cylindrical diffraction domain, IEEE Access, 7, 66234-66241, 2019.

  127. ChaoWu, Ke-Ya Hu, Ying Wang, Jun Wang*, Qiong-Hua Wang, Scalable asymmetric image encryption based on phase-truncation in cylindrical diffraction domain, Optics  Communications, 448C, 26-32, 2019.
  128. Chun Chen, Min-Yang He, Jun Wang*, Ke-Ming Chang, Qiong-Hua Wang, Generation of phase-only holograms based on aliasing reuse and application in holographic see-through display system, IEEE Photonics Journal, 11(3), 1-11, 2019.
  129. Ke-Ming Chang, Chun Chen, Jun Wang*, Qiong-Hua Wang, Improved single-random-phase holographic encryption using double-phase method, Optics Communication, 443,19-25, 2019.

  130. Xu-Dong Chen, Ying Wang, Jun Wang*, Qiong-Hua Wang, A symmetric color crypto system based on compressed sensing and equal modulus decomposition in discrete fractionalrandom transform domain, Optics & Laser Engineering, 121,143-149, 2019.

  131. Chao Wu, Ying Wang, Ye Chen, Jun Wang*, Qiong-Hua Wang, A symmetric encryption of multiple-image based on compressed sensing and phase-truncation in cylindricaldiffraction domain, Optics Communications, 431, 203-209, 2019.

  132. Min-Yang He, Han-Le Zhang, Huan Deng, Xiao-Wei Li, Da-Hai Li, and Qiong-Hua Wang*,Dual-view-zone tabletop 3D display system based on integral imaging, Applied Optics, 57(4), 952-958, 2018.

  133. Xiao-wei Li, Lei Li, and Qiong-Hua Wang*, Wavelet-based iterative perfect reconstruction in computational integral imaging, Journal of the Optical Society of America A,35(7), 1212-1220, 2018.

  134. Dan Xiao, Xiao-Wei Li, Su-Juan Liu, and Qiong-Hua Wang*, Encryption and display of multiple-image information using computer-generated holography with modified GS iterative algorithm, Optics Communications, 410, 488-495, 2018.

  135. Lin Luo, Lei Li, Jin-Hui Wang, Rong-Ying Yuan, and Qiong-Hua Wang*, Electrowetting actuated liquid prism with large steering angle based on additional gravitational effects, Journal of the Society for Information Display, 26(7), 407-412,2018.

  136. Lin Luo, Lei Li, Jin-Hui Wang, Rong-Ying Yuan, Qiong-Hua Wang*, Liquid prism with dual-interface based on electrowetting effect, Optical Communications, 425,180-184, 2018.

  137. Hu Dou, Fan Chu, Li-Lan Tian, Yu-Qiang Guo, Yu-Bao Sun, and Qiong-Hua Wang*, Large aperture liquid crystal lens array using a composited alignment layer, Optic Express, 26(7), 9254-9262, 2018.

  138. Hu Dou, Fan Chu, Ya-Li Song, Gui-Peng Li, and Qiong-Hua Wang*, A multifunctional blue phase liquid crystal lens based on multi-electrode structure, Liquid Crystals, 45(4), 491-497, 2018.

  139. Fan Chu, Hu Dou, Gui-Peng Li, Ya-Li Song, Lei Li, and Qiong-Hua Wang*, A polarisation-independent blue-phase liquid crystal lens array using gradient electrodes, Liquid Crystals, 45(5), 715-720, 2018.

  140. Gui-Peng Li, Hu Dou, Fan Chu, Ya-Li Song, and Qiong-Hua Wang*, Low voltage and high transmittance transflective blue-phase liquid crystal display with oppositepolar electrodes, Liquid Crystals, 45(3), 410-414, 2018.

  141. Ya-Li Song, Gui-Peng Li, Fan Chu, Hu Dou, Qiong-Hua Wang*, Transflective blue-phase liquid crystal display with polar opposite electrodes, Liquid Crystals, 45(10),1535-1539, 2018.

  142. Li-Lan Tian, Fan Chu, Hu Dou, Xin Zhou & Qiong-Hua Wang*, A transflective polymer-stabilised blue-phase liquid display with partitioned wall-shaped electrodes, Liquid Crystals, 45(8), 1259-1263, 2018.

  143. Xiao-Wei Li, Min Zhao, Xin Zhou, and Qiong-Hua Wang*, Ownership protection of holograms using quick-response encoded plenoptic watermark, Optics Express, 26(23),30492-30508, 2018.

  144. Xiao-Wei Li, Min Zhao, Yan Xing, Han-Le Zhang, Lei Li, Seok-Tae Kim, Xin Zhou, andQiong-Hua Wang*, Designing optical 3D images encryption and reconstruction using monospectral synthetic aperture integral imaging, Optics Express, 26(9),11084-11099, 2018.

  145. Lei Li, Jin-Hui Wang, Qiong-Hua Wang* and Shin-Tson Wu*, Displaceable and focus-tunable electrowetting optofluidic lens, Optics Express, 26(20),25839-25848, 2018.

  146. Lei Li, Rong-Ying Yuan, Luo Lin, and Qiong-Hua Wang*, Optofluidic zoom system using liquid optical path switchers, IEEE Photonics Technology Letters, 30(10),883-886, 2018.

  147. Xiao-Wei Li, Dan Xiao, and Qiong-Hua Wang*, Error-free holographic frames encryption with CA pixel-permutation encoding algorithm, Optics and Lasers in Engineering,100, 200-207, 2018.

  148. Xiao-Li Ma, Wu-Xiang Zhao, Jian-Qing Hu, Guo-Jiao Lv, and Qiong-Hua Wang*,Autostereoscopic 3D display with high resolution and low crosstalk using a time-multiplexed method, Optical Engineering, 57(9), 095105, 2018.

  149. Rong-Ying Yuan, Lin Luo, Jin-Hui Wang, Lei Li*, and Qiong-Hua Wang*, 1 × 2 optofluidic switch for optical beam routing and variable power distribution, IEEE Photonics Technology Letters, 30(18), 1629-1632, 2018.

  150. Jun Wang, Yu-Hen Hu, Qiong-Hua Wang*, A symmetric color image crypto system using detour cylindrical-diffraction and phase reservation & truncation, IEEE Access, 6, 53976-53983, 2018.

  151. Jun Wang, Yu-Hen Hu, Qiong-Hua Wang*, Image encryption using compressive sensingand detour cylindrical diffraction, IEEE Photonics Journal, 10(3), 7801014,2018.

  152. Xu-Dong Chen, Qi Liu, Jun Wang*, Qiong-Hua Wang, Asymmetric encryption of multi-imagebased on compressed sensing and feature fusion with high quality imagereconstruction, Optics and Laser Technology, 107, 302-312, 2018.

  153. Ying Wang, Qi Liu, Jun Wang*, Qiong-Hua Wang, Optical encryption of multiple 3Dobjects based on multiple interferences and single-pixel digital holography,Chinese Physics B, 27(3), 034202, 2018.

  154. Jun Wang, Xiao-Wei Li, Yu-Hen Hu, Qiong-Hua Wang*, Phase-retrieval attack freecryptosystem based on cylindrical asymmetric diffraction and double-randomphase encoding, Optics Communications, 410C, 468-474, 2018.

  155. Jun Wang, Qiong-Hua Wang*, Yu-Hen Hu, Unified and accurate diffraction calculationbetween two concentric cylindrical surfaces, Journal of the Optical Society of America A, 35(1), A45-A52, 2018.

  156. Qi Liu, Ying Wang, Jun Wang* and Qiong-Hua Wang, Optical image encryption usingchaos-based compressed sensing and phase-shifting interference in fractionalwavelet domain, Optical Review, 25, 46-55, 2018.

  157. Xiao-Wei Li, Min Zhao, Yan Xing, Lei Li, Seok-Tae Kim, Xin Zhou, and Qiong-Hua Wang*,Optical encryption via monospectral integral imaging, Optics Express, 25(25),31516-31527, 2017.

  158. Xiao-Wei Li, Seok-Tae Kim, and Qiong-Hua Wang*, Designing three-dimensional cellularautomata based video authentication with an optical integral imaging generatedmemory-distributed watermark, IEEE Journal of Selected Topics in Signal Processing, 11(7), 1200-1212, 2017.

  159. Dan Xiao, Di Wang, Su-Juan Liu, and Qiong-Hua Wang*, Color holographic systemwithout undesirable light based on area sampling of digital lens, Journal ofthe Society for Information Display, 25(7), 458-463, 2017.

  160. Jin-Hui Wang, Lei Li, Rong-Ying Yuan, and Qiong-Hua Wang*, 1 × 4 optical switch basedon electrowetting, Journal of the Society for Information Display, 25(10),583-587, 2017.

  161. Lei Li, Rong-Ying Yuan, Jin-Hui Wang, and Qiong-Hua Wang*, Electrically optofluidiczoom system with large zoom range and high-resolution image, Optics Express, 25(19),22280-22291, 2017.

  162. Xiao-Wei Li, Seok-Tae Kim, and Qiong-Hua Wang*, Copyright protection for elemental imagearray by hypercomplex Fourier transform and an adaptive texturized holographicalgorithm, Optics Express, 25(15), 17076-17098, 2017.

  163. Xiao-Wei Li, Yang Liu, Seok-Tae Kim, and Qiong-Hua Wang*, Designing a genetic water marking approach for 3D scenes. Optics and Lasers in Engineering, 93,83-91, 2017.

  164. Meng-yang Li, Da-Hai Li*, Cheng-Ying Jin, Kewei E, Xiao-dong Yuan, Zhao Xiong, Qiong-Hua Wang*, Improved zonal integration method for high accurate surface reconstruction in quantitative deflectometry, Applied Optics, 56(13), F144-F151, 2017.

  165. Rong Wei, Xiao-Wei Li, and Qiong-Hua Wang*, Double color image encryption scheme based on off-axis holography and maximum length cellular automata, Optik, 145,407-417, 2017.

  166. Guo-Jiao Lv, Ya-Zhi Yang, Fei Wu, Wu-Xiang Zhao, and Qiong-Hua Wang*, An autostereo scopic 3D display with high brightness and low crosstalk, Applied Optics, 56(10), 2792-2795, 2017.

  167. Jian-Peng Cui, Hao-Xiang Fan, and Qiong-Hua Wang*, A polarisation-independent blue-phase liquid crystal microlens using an optically hidden dielectric structure, Liquid Crystals, 44(4), 643-647, 2017.

  168. Fan Chu, Hu Dou, Ya-Li Song, Gui-Peng Li and Qiong-Hua Wang*, A transflective blue-phase liquid crystal display with alternate electrodes, Liquid Crystals,44(8), 1316-1320, 2017.

  169. Han-Le Zhang, Huan Deng, Wen-Tao Yu, Min-Yang He, Da-Hai Li, and Qiong-Hua Wang*,Tabletop augmented reality 3D display system based on integral imaging, Journalof the Optical Society of America B-optical Physics, B34, B16-B21, 2017.

  170. Su-Juan Liu, Di Wang, Song-Jie Li, and Qiong-Hua Wang*, Speckle noise suppression method in holographic display using time multiplexing, Optical Engineering, 56,063107, 2017.

  171. Jun Wang, Qiong-Hua Wang*, Yu-Hen Hu, Fast diffraction calculation of cylindrical computer-generated hologram based on outside in propagation model, Optics Communications, 403, 296–303, 2017.

  172. Huan Deng, Cheng-Gao Luo, Fei Wu, Chao-Chao Ji, and Qiong-Hua Wang*, Analysis on pixel number of elemental image in integral imaging 3D display, Optik, 128,83-92, 2017.

  173. Xia-Hui Wang, Hong-Wen Ren*, and Qiong-Hua Wang*, Polymer network liquid crystal (PNLC)lenticular microlens array with no surface treatment, Journal of Display Technology, 12(8), 773-778, 2016.

  174. Hai-Dong Zhu, Qiong-Hua Wang, Wu-Xiang Zhao, Approach to change optimal viewing distance of autostereo scopic display based on parallax barrier, Optik, 127(5),3018–3020, 2016.

  175. Cheng-Gao Luo, Huan Deng, Lei Li, Fei Wu, and Qiong-Hua Wang*, Integral imaging pickup method with extended depth-of-field by gradient-amplitude modulation, Journal of Display Technology, 12(10), 1205-1211, 2016.

  176. Su-Juan Liu, Di Wang, Song-Jie Li, and Qiong-Hua Wang*, Effective information processing method to produce computer-generated hologram based on spatial light modulator, Applied Optics, 55(32), 9250-9254, 2016.

  177. Qiong-Hua Wang*, Chao-Chao Ji, Lei Li, and Huan Deng, A dual-view integral imaging 3D display by using orthogonal polarizer array and polarization switcher, Optics Express, 24(1), 9-16, 2016.

  178. Xiao-Wei Li, Qiong-Hua Wang*, Seok-Tae Kim and In-Kwon Lee, Encrypting 2D/3D image using improved lensless integral imaging in Fresnel domain, Optics Communications,381, 260-270, 2016.

  179. Feng-Jiao Gan, Di Wang, Cui Wang, Jun-Wang, and Qiong-Hua Wang*, A method holographic magnification base on Fresnel diffraction, Journal of the Society for Information Display, 24(6), 355-359, 2016.

  180. Jiang-Lin Mao, Jian Wang, Hao-Xiang Fan, and Qiong-Hua Wang*, Low-voltage and high-transmittance blue-phase liquid crystal display with concave electrode,Liquid Crystals, 43(4), 535-539, 2016.

  181. Jian Wang, Jiang-Lin Mao, Hao-Xiang Fan, and Qiong-Hua Wang*, Low voltage transflective blue-phase liquid crystal display with a non-uniform etchings substrate, Chinese Physics B, 25(9), 094223, 2016.

  182. Huan Deng, Zhao-Long Xiong, Yan Xing, Han-Le Zhang, and Qiong-Hua Wang*, A high optical efficiency 3D/2D convertible integral imaging display, Journal of the Society for Information Display, 24(2), 85-89, 2016.

  183. Huan Deng, Qiong-Hua Wang*, Zhao-Long Xiong, Han-Le Zhang, and Yan Xing, Magnified augmented reality 3D display based on integral imaging, Optik, 127(10),4250-4253, 2016.

  184. Lei Li, Di Wang, Chao Liu and Qiong-Hua Wang*, Ultrathin zoom telescopic objective,Optics Express, 24(16), 18674-18684, 2016.

  185. Le iLi, Di Wang, Chao Liu and Qiong-Hua Wang*, Zoom microscope objective using electrowetting lenses, Optics Express, 24(3), 2931-2940, 2016.

  186. Lei Li, Chao Liu, Hong-Wen Ren, and Qiong-Hua Wang*, Optical switchable electrowetting lens, IEEE Photonics Technology Letters, 28(14), 1505-1508,2016.

  187. Song-Jie Li, Qiong-Hua Wang*, Cui Wang, Di Wang, De-Hong Wang, Color holographic magnification system based on spatial light modulators, Journal of the Societyfor Information Display, 24(2), 125-130, 2016.

  188. Yan Xing, Qiong-Hua Wang*, Zhao-Long Xiong, and Huan Deng, Encrypting three-dimensional information system based on integral imaging and multiple chaotic maps, Optical Engineering, 55(2), 023107-023107, 2016.

  189. Di Wang, Chao Liu, Lei Li, Xin Zhou, and Qiong-Hua Wang*, Adjustable liquid aperture to eliminate undesirable light in holographic projection, Optics Express, 24(3), 2098-2105, 2016.

  190. Di Wang, De-Hong Wang, Chuan Shen, Chao Liu, and Qiong-Hua Wang*, Adjustable aperture based on the phase modulation of spatial light modulator, IEEE Journalof Display Technology, 12(5), 447-450, 2016.

  191. Di Wang, Chao Liu, Chuan Shen, Xin Zhou, and Qiong-Hua Wang*, A holographic zoom system without undesirable light, Optik, 127(19), 7782-7787, 2016.

  192. Qin Wang, Qiong-Hua Wang*, Sheng-Xue Gu, and Chun-Ling Liu, Human fusion range for polarized 3D display, Journal of the Society for Information Display, 24(3),198-203, 2016.

  193. Qin Wang, Qiong-Hua Wang*, and Chun-Ling Liu, Relationship between phoria and visual fatigue in autostereoscopic 3D displays, Journal of Journal of the Society for Information Display, 23(6), 277-283, 2015.

  194. Meng-Yang Li, Da-Hai Li, Chen Zhang, Ke-Wei E, Qiong-Hua Wang*, and Hai-Ping Chen, Modal wavefront reconstruction from slope measurements for rectangular apertures,Journal Optic Society America A, 32(11), 1916-1921, 2015.

  195. Shui-Yan Li, Shuang Qin, Da-Hai Li, and Qiong-Hua Wang*, Using a laser source to measure the refractive index of glass beads and Debye theory analysis, Applied Optics,54(33), 9687-9694, 2015.

  196. Di Wang, Qiong-Hua Wang*, Xin Zhou, and Cui Wang, Holographic projection method to realize adjusting location of reconstruction, Optik, 126(24), 5372-5375, 2015.

  197. Hao-Xiang Fan, and Qiong-Hua Wang*, High transmittance blue-phase liquid crystal displays with improved protrusion electrodes, Liquid Crystals, 42(4), 481-485, 2015.

  198. Cui Wang, Di Wang, and Qiong-Hua Wang*, A method of chromatic aberration compensation in holographic projection display based on a single spatial light modulator, Journal of the Society for Information Display, 23(1), 14-18, 2015.

  199. De-Hong Wang, Di Wang, and Qiong-Hua Wang*, A method to achieve reconstructed image motion using digital lens area sampling, Digital Holography & 3-D Imaging(DH), DW2A, 26, 2015.

  200. Qin Wang, Qiong-Hua Wang* and Yong-Chuan Liao, Relationship between age differences and display parameters on visual comfort for autostereoscopic display, Journal of the Society for Information Display, 23(2), 69-75, 2015.

  201. Qin Wang, Qiong-Hua Wang*, and Chun-Ling Liu, Relationship between phoria and visual fatigue in autostereoscopic 3D displays, Journal of the Society for Information Display, 23(6), 277-283, 2015.

  202. Zhao-Long Xiong, Qiong-Hua Wang*, Yan Xing, Huan Deng, and Da-Hai Li, An active integral imaging system based on multiple structured light method, Optics Express,23(21), 27095-27104, 2015.

  203. Lei Li, Chao Liu, Hong-Wen Ren, Huan Deng, and Qiong-Hua Wang*, Annular folded electrowetting liquid lens, Optics Letters, 40(9), 1968-1971, 2015.

  204. Chao Liu, Lei Li, Di Wang, Li-Xiao Yao, and Qiong-Hua Wang*, Liquid optical switch based on total internal reflection, IEEE Photonics Technology Letters, 27(19),2091-2094, 2015.

  205. Pei Tang, Jian-Peng Cui, Hao-Xiang Fan, and Qiong-Hua Wang*, Blue phase dual-view liquid crystal display based on directional backlight system, Journal of the Society for Information Display, 22(12), 652-657, 2015.

  206. Huan Deng, Qiong-Hua Wang*, Fei Wu, Cheng-Gao Luo, and Yao Liu, Cross-talk-free integral imaging three-dimensional display based on a pyramid pinhole array,Photonics Research, 3(4), 173-176, 2015.

  207. Di Wang, Qiong-Hua Wang*, Chuan Shen, Xin Zhou, and Chao Liu, Color holographic zoom system based on a liquid lens, Chinese Optics Letters, 13(7), 072301,2015.

  208. Zhao-Long Xiong, Shu-Li Li, Jun Chen, Huan Deng, and Qiong-Hua Wang*, Nonunified integral imaging elemental image array generation method based on selective pixelsampling algorithm, Applied Optics, 54(9), 2532-2536, 2015.

  209. Chao Liu, Di Wang, Li-Xiao Yao, Lei Li, and Qiong-Hua Wang*, Electrowetting actuated optical switch based on total internal reflection, Applied Optics, 54(10),2672-2676, 2015.

  210. Chao Liu, Di Wang, Li-Xiao Yao, Lei Li, and Qiong-Hua Wang*, Optical attenuator based on phase modulation of a spatial light modulator, Chinese Optics Letters,13(8), 082301, 2015.

  211. Cheng-Gao Luo, Qiong-Hua Wang*, Huan Deng, and Yao Liu, Extended depth-of-field inintegral-imaging pickup process based on amplitude modulated sensor arrays,Optical Engineering, 54(7), 073108, 2015.

  212. Hao-Xiang Fan, Qiong-Hua Wang*, Jian-Peng Cui, and Pei Tang, Low voltage blue-phase liquid crystal display with triple-penetrating fringe fields, Liquid Crystals,42(1), 41-45, 2015.

  213. Qin Wang, Qiong-Hua Wang*, and Chun-Ling Liu, Visual experience for autostereoscopic 3D projection display, Journal of the Society for Information Display, 22(10), 493-498, 2015.

  214. Guo-Jiao Lv, Qiong-Hua Wang*, Wu-Xiang Zhao, Jun Wang, Huan Deng, and Fei Wu,Glasses-free three-dimensional display based on microsphere-lens array, Journal of Display Technology, 11(3), 292-295, 2015.

  215. Di Wang, Qiong-Hua Wang*, Xin Zhou, and Cui Wang, Holographic projection method to realize adjusting location of reconstruction, optik,126(24), 5372-5375, 2015.

  216. Miao Xu, Da-Ming Xu, Hong-Wen Ren, IlsouYoo, and Qiong-Hua Wang*, An adaptive liquid lens with radial interdigitated electrode, Journal of Optics, 16(10), 105601,2014.

  217. Yao Liu, Qiong-Hua Wang*, Chao-Chao Ji, and Cheng-Gao Luo, Viewing angle enhanced integral imaging system using high refractive index medium and curved micro-lens array, Journal of the Society for Information Display, 22(3),153-157, 2014.

  218. Huan Deng, Qiong-Hua Wang*, Cheng-Gao Luo, Chun-Ling Liu, and Chen Li, Accommodation and convergence in integral imaging 3D display, Journal of the Society for Information Display, 22, 158-162, 2014.

  219. Di Wang, Qiong-Hua Wang*, Chuan Shen, Xin Zhou and Chun-Mei Liu, Active opticalzoom system, Applied Optics, 53(31), 7402-7406, 2014.

  220. Di Wang, Chao Liu, Qiong-Hua Wang*, and Xin Zhou, Voltage controlled opticalfilter based on electrowetting, Chinese Optics Letters, 12(12), 121102, 2014.

  221. Qin Wang, Qiong-Hua Wang*, Jing-Long Liang, and Chun-Ling Liu, Visual experience for autostereoscopic 3D projection display, Journal of the Society forInformation Display, 22(10), 493-498, 2014.

  222. Chao Liu, Qiong-Hua Wang*, and Ming-Huan Wang, Optical switch based on hydraulicactuation, Optik, 125(22), 6661-6664, 2014.

  223. Chao Liu, Qiong-Hua Wang*, Ming-Huan Wang and Li-Xiao Yao, Optical switch matrix based on a liquid-actuated mirror reflector, Optical Engineering, 53(11),117107, 2014.

  224. Zhao-Long Xiong, Qiong-Hua Wang*, Shu-Li Li, Huan Deng, and Chao-Chao Ji,Partial-overlapped viewing zone based integral imaging system with super wide viewing angle, Optics Express, 22(19), 22268-22277, 2014.

  225. Shang-Fei Zang, Qiong-Hua Wang*, Wu-Xiang Zhao, Jie Zhang, and Jing-Long Liang, A frontal multi-projection autostereoscopic 3D display based on a 3D-image-guided screen,Journal of Display Technology, 10(10), 2014.

  226. Wei Xie, Qiong-Hua Wang*, Ya-Zhou Wang, and Huan Deng, Depth-enhanced integral imaging system with convex and composite concave micro-lens array, Optik, 125(20),6087-6089, 2014.

  227. Xiao-Jiang Peng, Yu Qian, Qiang Peng, and Qiong-Hua Wang*, Large margin dimensional ityreduction for action similarity labeling, IEEE Signal Processing Letter, 21(8),1022-1025, 2014.

  228. Qiang Peng, Lei Zhang, Xiao Wu, and Qiong-Hua Wang*, Modeling of SSIM based end-to-end distortion for error-resilient video coding, EURASIP Journal on Image and Video Processing. 2014.

  229. Lei Zhang, Qiang Peng, Xiao Wu, and Qiong-Hua Wang*, SSIM-based error resilient video coding over packet-switched networks, Journal of Signal Processing Systems, 74(1), 103-113, 2014.

  230. Huan Deng, Qiong-Hua Wang*, Cheng-Gao Luo, Chun-Ling Liu, and Chen Li, Accommodation and convergence in integral imaging 3D display, Journal of the Society for Information Display, 22, 158-162, 2014.

  231. Chao Liu, Qiong-Hua Wang*, and Ming-Huan Wang, Mirror reflector actuated by liquiddroplet, IEEE Photonics Technology Letters, 26(11), 1077-1080, 2014.

  232. Di Wang, Qiong-Hua Wang*, Jun Wang, Xin Zhou, and Da-Hai Li, Color holographic display method based on a single-spatial light modulator, Optical Engineering,53(4), 045104(1-5), 2014.

  233. Ming-Huan Wang, Qiong-Hua Wang*, and Chao Liu, 1 × 2 optical switch based on electrowetting, Optical Engineering, 53(5), 5103:1-4, 2014.

  234. Shu-Li Li, Qiong-Hua Wang*, Zhao-Long Xiong, Huan Deng, and Chao-Chao Ji, Multipleort holographic frustum combining for real-time computer-generated integral imaging system, Journal of Display Technology, 10(8), 704-709, 2014.

  235. Guo-Jiao Lv, Qiong-Hua Wang*, and Wu-Xiang Zhao, Orthogonal-polarized directional backlight-based three-dimensional display with high horizontal resolution and low crosstalk, Applied Optics, 53(18), 4018-4022, 2014.

  236. Guo-Jiao Lv, Wu-Xiang Zhao, Da-Hai Li, and Qiong-Hua Wang*, Polarizer parallax barrier 3D display with high brightness, resolution and low crosstalk, Journal of  Display Technology, 10(2), 120-124, 2014.

  237. Guo-Jiao Lv, Wu-Xiang Zhao, Jun Wang, and Qiong-Hua Wang*, Shared pixel based parallax barrier 3D display with high brightness, Optik, 125(8), 1984-1986, 2014.

  238. Guo-Jiao Lv, Wu-Xiang Zhao, Jun Wang, and Qiong-Hua Wang*, 3D display based on parallax barrier with multi-view zones, Applied Optics, 53(6), 1339-1342, 2014.

  239. Jing-Lun Liu, Mei Chen, Qiong-Hua Wang*, and Nian-Chun Sun, Hollow circular truncatedcone resonator and its hollow variable biconical laser beam, Optical Engineering, 53(5), 056113, 2014.

  240. Lin Qi, Qiong-Hua Wang*, Wu-Xiang Zhao, and Huan Deng, Investigation of resolution of the stereoscopic 3D images, Optik, 125(16), 4319-4321, 2014.

  241. Hua-Rong Peng, Lei Li, Qiong-Hua Wang*, Property of robustness to size and itsrealization on fractal dimension, Optik, 125(9), 2205–2209, 2014.

  242. Lei Li, Qiong-Hua Wang*, Chao Liu, Ming-Huan Wang, and Huan Deng, An adaptive liquid iris for optical switch, Optical Engineering, 53(4), 047105:1-4, 2014.

  243. Fei Wu, Qiong-Hua Wang*, Cheng-Gao Luo, Da-Hai Li, and Huan Deng, Dual-view integral imaging 3D display using polarizer parallax barriers, Applied Optics,53(10), 2037-2039, 2014.

  244. Wei Xie, Ya-Zhou Wang, Huan Deng, and Qiong-Hua Wang*, Viewing-angle-enhanced integral imaging system using three lens arrays, Chinese Optics Letters, 12(1),0111011, 2014.

  245. Chao Liu, Qiong-Hua Wang*, Li-Xiao Yao, and Ming-Huan Wang, Adaptive liquid lens actuated by droplet movement, Micromachines, 5(3), 496-504, 2014.

  246. Cheng-Gao Luo, Xiao Xiao, Manuel Martínez-Corral, Chih-Wei Chen, Bahram Javidi, and Qiong-Hua Wang*, Analysis of the depth of field of integral imaging displays based on wave optics, Optics Express, 21(25), 31263–31273, 2013.

  247. Chao-Chao Ji, Cheng-Gao Luo, Huan Deng, Da-Hai Li, and Qiong-Hua Wang*, Tilted elemental image array generation method for moiré-reduced computer-generated integral imaging display, Optics Express, 21(17), 19816–19824, 2013.

  248. Xia-Hui Wang, Miao Xu, Hong-Wen Ren, Qiong-Hua Wang*, A polarization converter array using a twisted-azimuthal liquid crystal in cylindrical polymer cavities,Optics Express, 21(13), 16222-16230, 2013.

  249. Lei Li, Chao Liu, Hong-Wen Ren, and Qiong-Hua Wang, Adaptive liquid iris based on electrowetting, Optics Letters, 38(13), 2336-2338, 2013.

  250. Chao Liu, Lei Li, and Qiong-Hua Wang*, Bidirectional optical switch based onelectrowetting, Journal of Applied Physics, 113(19), 193106:1-4, 2013.

  251. Dong Liang, and Qiong-Hua Wang*, Liquid crystal microlens array using double lenticular electrodes, Journal of Display Technology, 9(10), 814-818, 2013.

  252. Jian-Peng Cui, Yan Li, Jin Yan, Hui-Chuan Cheng, and Qiong-Hua Wang*, Time-multiplex eddual-view display using a blue phase liquid crystal, Journal of Display Technology, 9(2), 87-90, 2013.

  253. Lei Li, Chao Liu, and Qiong-Hua Wang*, Electrowetting based liquid iris, IEEE Photonics Technology Letters, 25(10), 989-991, 2013.

  254. Lei Li, Chao Liu, Hong-Wen Ren, Qiong-Hua Wang*, Fluidic optical switch by pneumatic actuation, IEEE Photonics Technology Letters, 25(4), 338-340, 2013.

  255. Miao Xu, Zuo-Wei Zhou, Hong-Wen Ren, Seung Hee Lee, and Qiong-Hua Wang*, A microlens array based on polymer network liquid crystal, Journal of Applied Physics,113(5), 053105:1-6, 2013.

  256. Jie Zhang, Xiao-Qing Xu, Jun Liu, Lei Li, and Qiong-Hua Wang*, Three-dimensional interaction and autostereoscopic display system using gesture recognition,Journal of the Society for Information Display, 21(5), 203-208, 2013.

  257. Peng Li, Yu-Bao Sun, Yan-Li Zhao, Qiong-Hua Wang*, High transmittance blue-phase liquid crystal display with slit-shaped electrode, Liquid Crystals, 40(10), 1417-1421,2013.

  258. Peng Li, Yu-Bao Sun, Qiong-Hua Wang*, A transflective and viewing angle controllable blue phase liquid crystal display, Liquid Crystals, 40(8), 1024-1027, 2013.

  259. Song Tang, Ya-zhou Wang, Huan Deng, Chao-Chao Ji, and Qiong-Hua Wang*,Double-viewing-zone integral imaging 3D display without crosstalk based on atilted barrier array, Journal of the Society for Information Display, 21(5),198-202, 2013.

  260. Fei Wu, Qiong-Hua Wang*, Huan Deng, Cheng-Gao Luo, and Da-Hai Li, A dual-viewintegral imaging three-dimensional display, Applied Optics, 52(20), 4911-4914,2013

  261. Guo-Jiao Lv, Jun Wang, Wu-Xiang Zhao, and Qiong-Hua Wang*, 3D Display based on dualparallax barriers with uniform resolution, Applied Optics, 52(24), 6011-6015,2013.

  262. Xiu-Ling Wu, Xin Zhou, Qiong-Hua Wang*, Yu-Fu Jiang, Chun-Jing Xiao, Kelly Dobson, and Ting-Chung Poon, Deviation influences on sectional image reconstruction inoptical scanning holography using a random-phase pupil, Applied Optics, 52(1),A360-A366, 2013.

  263. Ya-Zhou Wang, Huan Deng, Cheng-Gao Luo, and Qiong-Hua Wang*, Crosstalk-free integral imaging based on double plano-convex micro-lens array, Chinese Optics Letters,11(6), 061101:1-4, 2013.

  264. Fei Wu, Huan Deng, Da-Hai Li, and Qiong-Hua Wang*, High optical-efficiency integral imaging display based on gradient-aperture pinhole array, Optical Engineering,52(5), 054002, 2013.

  265. Huan Deng, Fei Wu, Da-Hai Li, and Qiong-Hua Wang*, An integral imaging without image distortion using micro-lens arrays with different specifications, Optical Enginerring, 52(10), 103113, 2013.

  266. Huan Deng, Qiong-Hua Wang*, Da-Hai Li, Cheng-Gao Luo, and Chao-Chao Ji, 1D integral imaging based on parallax images’ virtual reconstruction, Chinese Optics Letters, 11(4), 041101:1-4, 2013.

  267. Lei Li, Qiong-Hua Wang*, and Chao Liu, Three-step method for optimization of optical thin film, Optik, 124(14), 1796-1799, 2013.

  268. Xin-Xin Gong, Qiong-Hua Wang*, and Jun Gu, Rapid computer-generated integral imaging inreal and virtual fields, Optics and Lasers in Engineering, 51(5), 616-619,2013.

  269. Xiao-Qing Xu, Qiong-Hua Wang*, Jun Liu, Jun Gu, and Lei Li, A 3D image synthesizing method for real-time autostereoscopic display based on GPU, Optik, 124(4),297-300, 2013.

  270. Quan-Min Zhong, Qiong-Hua Wang*, Jian-Peng Cui, and Jiang-Yong Luo, An autostereoscopic liquid crystal display with a polarized parallax barrier, Optik, 124(10),919-921, 2013.

  271. Ling Yuan, Jian-Peng Cui, and Qiong-Hua Wang*, Viewing angle switchable blue-phase liquid crystal display with low voltage and high transmittance, Journal of the Society for Information Display, 20(12), 692-696, 2013.

  272. Lei Li, Xiao-Qing Xu, and Qiong-Hua Wang*, Mutated and converged damping factors inlens system optimization to find new local minima, Optik, 124(20), 4150-4154,2013.

  273. Lei Li, Chao Liu, and Qiong-Hua Wang*, Optical switch based on tunable aperture,Optics Letters, 37(16), 3306-3308, 2012.

  274. Cheng-Gao Luo, Chao-Chao Ji, Fang-Ning Wang, Ya-Zhou Wang, and Qiong-Hua Wang*,Crosstalk-free integral imaging display with wide viewing angle using periodic black mask, Journal of Display Technology, 8(11), 634-638, 2012.

  275. Dong Liang, Jiang-Yong Luo, Wu-Xiang Zhao, Da-Hai Li, and Qiong-Hua Wang*, 2D/3D Switchable autostereoscopic display based on polymer-stabilized blue-phase liquidcrystal lens, Journal of Display Technology, 8(10), 609-612, 2012.

  276. Lei Li, Chao Liu, Hua-Rong Peng, and Qiong-Hua Wang*, Optical switch based on electrowetting liquid lens, Journal of Applied Physics, 111, 103103, 2012.

  277. Chao-Chao Ji, Huan Deng, and Qiong-Hua Wang*, Pixel extraction based integral imaging with controllable viewing direction, Journal of Optics, 14, 095401, 2012.

  278. Ai-Hong Wang, Qiong-Hua Wang*, Da-Hai Li and Xiao-Fang Li, Design of combined lenticular lens for autostereoscopic three-dimensional display, Optik, 123(9),827-830, 2012.

  279. Feng Zhou, Qiong-Hua Wang*, Di Wu, and Jian-Peng Cui, A polymer-stabilized bluephase liquid crystal display with slanted wall-shaped electrodes, Chinese Optics Letters, 10(2), 022301-022301, 2012.

  280. Yan Li, Yuan Chen, Jin Yan, Yi-Fan Liu, Jianpeng Cui, Qiong-Hua Wang*, and Shin-Tson Wu*, Polymer-stabilized blue phase liquid crystal with a negativeKerr constant, Optical Materials Express, 2(8), 1135-1140, 2012.

  281. Lin Qi, Qiong-Hua Wang*, Jiang-Yong Luo, and Ai-Hong Wang, An autostereoscopic 3D projection display based on two lenticular sheets, Chinese Optics Letters,10(1), 011101–011101, 2012.

  282. Huan Deng, Qiong-Hua Wang*, Da-Hai Li, Method of generating orthoscopic elementalimage array from sparse camera array, Chinese Optics Letters, 10(6), 061102:1-3,2012.

  283. Li-Wei Liu, Jian-Peng Cui, Da-Hai Li, Qiong-Hua Wang*, A viewing angle controllable blue-phase liquid crystal display, Journal of the Society for Information Display, 20(6), 337-340, 2012.

  284. Lei Li, Qiong-Hua Wang*, Da-Hai Li, and Xiao-Qing Xu, Zoom lens design using liquid lenses for achromatic and spherical aberration corrected target, Optical Engineering, 51(4), 043001:1-7, 2012

  285. Jian-Peng Cui, Qiong-Hua Wang*, Feng Zhou, Cheng-Qun Song, and Quan-Min Zhong, Low voltage and high transmittance blue-phase liquid crystal device with slantedelectrodes, Journal of the Society for Information Display, 20(6), 1-4, 2012.

  286. Chao Liu, Lei Li, Qiong-Hua Wang*, Liquid prism for beam tracking and steering, Optical Engineering, 51 (11), 114002, 2012.

  287. 王芳宁, 段涛, 牛瑞华, 张建伟, 王琼华*, 激光脉冲诱导损伤点对激光传输的影响, 光谱学与光谱分析, 32(8),2017-2021, 2012.

  288. Lei Zhang, Qiang Peng, Qiong-Hua Wang*, Stereoscopic perceptual video coding based on just-noticeable-distortion profile, IEEE Transactions on Broadcasting,57(2), 572-581, 2011.

  289. Cheng-Gao Luo, Qiong-Hua Wang*, Huan Deng, Xin-Xin Gong, Lei Li, and Fang-Ning Wang, Depth calculation method of integral imaging based on Gaussian beam distribution model, Journal of Display Technology, 8(2), 112-116, 2011.

  290. Xiao-Fang Li, Qiong-Hua Wang*, Da-Hai Li, and Ai-Hong Wang, Image processing to eliminate crosstalk between neighboring view images in three-dimensional lenticular display, Journal of Display Technology, 7(8), 443-448, 2011.

  291. Jian-Peng Cui, Feng Zhou, Qiong-Hua Wang*, Da-Hai Li, and Di Wu, Transflective blue-phase liquid crystal display using an etched in-plane switching structure, Journal ofDisplay Technology, 7(7), 398-401, 2011.

  292. Di Wu, Qiong-Hua Wang*, Feng Zhou, Jian-Peng Cui, and Cheng-Qun Song, Low voltage and high optical efficiency single-cell-gap transflective display using ablue-phase liquid crystal, Journal of Display Technology, 7(8), 459-462, 2011.

  293. Cheng-Qun Song, Qiong-Hua Wang*, Jian-Peng Cui, Feng Zhou, Lin Qi, and Da-Hai Li, Low voltage and high transmittance transflective display using polymer-stabilized blue-phase liquid crystal, Journal of Display Technology, 7(5), 250-254, 2011.

  294. Huan Deng, Qiong-Hua Wang*, Yu-Hong Tao, Da-Hai Li, and Fang-Ning Wang, Realization of undistorted and orthoscopic integral imaging without black zone in real andvirtual fields, Journal of Display Technology, 7(5), 255-258, 2011.

  295. Feng Zhou, Jian-Peng Cui, Qiong-Hua Wang*, Da-Hai Li, and Di Wu, A single-cell-gaptransflective display using a blue-phase liquid crystal, Journal of Display Technology, 7(4), 170-173, 2011.

  296. Jiang-Yong Luo, Qiong-Hua Wang*, Wu-Xiang Zhao, and Da-Hai Li, Autostereoscopic three-dimensional display based on two parallax barriers, Applied Optics, 50(15),2911-2915, 2011.

  297. Qiong-Hua Wang*, Xiao-Fang Li, Lei Zhou, Ai-Hong Wang and Da-Hai Li, Crosstalk reduction by correcting sub-pixel position in multiview autostereoscopic three-dimensionaldisplay based on a lenticular sheet, Applied Optics, 50(7), B1-B5, 2011.

  298. Xiao-Fang Li, Qiong-Hua Wang*, Yu-Hong Tao, Da-Hai Li, and Ai-Hong Wang, Crosstalk reduction in multi-view autostereoscopic three-dimensional display based on lenticular sheet, Chinese Optics Letters, 9(2), 021001, 2011.

  299. Qiong-Hua Wang*, Ai-Hong Wang, Wu-Xiang Zhao, Yu-Hong Tao, Da-Hai Li, Autostereoscopic display based on multi-layer lenticular lens, Optik, 122 (15), 1326-1328, 2011.

  300. Qiong-Hua Wang*, Lei Li, Zhi-Bing Ge, Broadband dielectric film transflector for variable transmission optical filters, Optik, 122(4), 364-366, 2011.

  301. Lei Li, Qiong-Hua Wang*, and Wei Jiang, Liquid lens with double tunable surfaces for large power tunability and improved optical performance, Journal of Optics,13(11), 115503-115508, 2011.

  302. Huan Deng, Qiong-Hua Wang*, Lei Li, and Da-Hai Li, An integral imaging based three-dimensional display with wide viewing angle, Journal of the Society for Information Display, 19(10), 679-683, 2011.

  303. Jiang-Yong Luo, Qiong-Hua Wang*, Wu-Xiang Zhao, Lin Qi and Guo-Kai Shi, Two parallax barriers based autostereoscopic liquid crystal display without crosstalk,Journal of the Society for Information Display, 19(10), 675-678, 2011.

  304. Jun Liu, Qiong-Hua Wang*, Xiao-Qing Xu, and Jun Gu, Image correction based on holographyin stereoscopic projection display, Journal of the Society for Information Display, 19(10), 671-674, 2011.

  305. Li-Wei Liu, Qiong-Hua Wang* and Jian-Peng Cui, A continuous viewing angle controllable liquid crystal display using a blue-phase liquid crystal, Journal of the Society for Information Display, 19(8), 547-550, 2011.

  306. Cheng-Qun Song, Qiong-Hua Wang*, Da-Hai Li, A single cell gap transflective liquid crystal display using different pretilt angles in transmissive and reflective regions, Journal of the Society for Information Display, 19(6) ,35-440, 2011.

  307. Jian-Peng Cui, Qiong-Hua Wang*, Feng Zhou, Transflective blue-phase liquid crystal display with corrugated electrode structure, Journal of the Society for Information Display, 19(11), 709-712, 2011.

  308. Wu-Xiang Zhao, Qiong-Hua Wang*, Ai-Hong Wang and Da-Hai Li, An autostereoscopic display based on two-layer lenticular lens, Optics Letters, 35(24), 4127-4129, 2010.

  309. Lei Li, Qiong-Hua Wang*, Xiao-Qing Xu, and Da-Hai Li, Mutation operators in lens system optimization to jump out of local minima, Optics Express, 18(20), 20876-20886,2010.

  310. Lei Li, Qiong-Hua Wang*, Xiao-Qing Xu, and Da-Hai Li, Two-step method for lenssystem design, Optics Express, 18(12), 13285-13300, 2010.

  311. Da-Hai Li, Xiao-Ping Qi, Qiong-Hua Wang*, Xiao-Yong Liu, Guo-Ying Feng, and Shou-Huan Zhou, Accurate retrieve algorithm of amplitude from radial-shearing interferogram, Optics Letters, 35(18), 3054-3056, 2010.

  312. Qiong-Hua Wang*, Wu-Xiang Zhao, Yu-Hong Tao, Da-Hai Li, Ren-Liang Zhao, Stereo viewing-zone in parallax barrier based autostereoscopic display, Optik,121(22),2008-2011, 2010.

  313. Ai-Hong Wang, Qiong-Hua Wang*, Yu-Hong Tao, and Da-Hai Li, Elimination of Vertical Parallax in Multi-View Parallax Images, Chinese Optics Letters, 8(11), 1047-1049,2010.

  314. Qiong-Hua Wang*, Huan Deng, Tian-Tan Jiao, Da-Hai Li, and Fang-Ning Wang, Imitating micro-lens array for integral imaging, Chinese Optics Letters, 8(5), 512-514,2010.

  315. Qiong-Hua Wang*, Yu-Hong Tao, Wu-Xiang Zhao, and Da-Hai Li, A full resolution autostereoscopic 3D display based on polarizer parallax barrier, Chinese Optics Letters, 8(1), 373-374, 2010.

  316. Qiong-Hua Wang*, Jian-De Zhang, Di Wu and Da-Hai Li, A single-cell-gap transflective liquid crystal display with special electrodes, Journal of the Society for Information Display, 18(12), 1040-1043, 2010.

  317. Qiong-Hua Wang*, Jin-Ren Yan, Lei Li, Da-Hai Li, Jian-De Zhang, Influence of Wavelength Red-shift on Color Rendering Index and Luminous Efficacy of LED, Journal of the Society for Information Display, 18(12), 1029-1032, 2010.

  318. Ying-Quan Zhang, Qiong-Hua Wang*, Da-Hai Li, Depth-map generation for multi-view autostereoscopic 3D displays based on the SIFT algorithm constrained by boundary, Journal of the Society for Information Display, 18(7), 513-518, 2010.

  319. Huan Deng, Qiong-Hua Wang*, Da-Hai Li, and Ai-Hong Wang, Virtual Toed-in Camera Method to Eliminate Parallax Distortions of Stereoscopic Images for Stereoscopic Display, Journal of the Society for Information Display, 18(3), 193-256,2010.

  320. Di Wu, Qiong-Hua Wang*, Da-Hai Li and Jian-De Zhang, A chromatic quarter-wave film using two chromatic wave plates and a twisted nematic liquid crystal cell,Journal of the Society for Information Display, 18(1), 13-16, 2010.

  321. Yu-Hong Tao, Qiong-Hua Wang*, Jun Gu, Wu-Xiang Zhao, and Da-Hai Li, An autostereoscopic three-dimensional projector based on two parallax barriers, Optics Letters,34(20), 3220-3222, 2009.

  322. Lei Li, Qiong-Hua Wang*, Da-Hai Li, and Hua-Rong Peng, Jump method for optical thinfilm design, Optics Express, 17(19), 16920-16926, 2009.

  323. Hong-Min Deng, Tao Li, Qiong-Hua Wang*, and Hong-Bin Li, A fractional-order hyperchaotic system and its synchronization, Chaos Solitions and Fractals, 41(2), 962-969,2009.

  324. Jin-Ren Yan, Qiong-Hua Wang*, Da-Hai Li and Jian-De Zhang, Edge-lighting light guide plate based on micro-prism for liquid crystal display, Journal of Display Technology, 5(9), 355-357, 2009.

  325. Wu-Xiang Zhao, Qiong-Hua Wang*, Da-Hai Li, Yu-Hong Tao, Pixel arrangement of autostereoscopic liquid crystal displays based on parallax barriers, Molecular Crystals and Liquid Crystals, 507, 67-72, 2009.

  326. Jian-De Zhang, Qiong-Hua Wang*, Da-Hai Li and Jin-Ren Yan, A dual-cell-gap transflective liquid crystal display with identical response time intransmissive and reflective regions, Journal of the Society for Information Display, 17(9), 701-704, 2009.

  327. Wu-Xiang Zhao, Qiong-Hua Wang*, Da-Hai Li, Yu-Hong Tao, Pixel arrangement of autostereoscopic liquid crystal displays based on parallax barriers, Molecular Crystals and Liquid Crystals, 513, 329-329, 2009.

  328. Qiong-Hua Wang*, Da-Hai Li, Bao-Jian Peng, Yu-Hong Tao, and Wu-Xiang Zhao, Multilayerdi electric color filters for optically written display using up-conversion of near infrared light, Journal of Display Technology, 4(2), 250-253, 2008.

  329. Da-Hai Li, Fu-Lin Wen, Qiong-Hua Wang*, Yun-Ying Zhao, Fuming Li, and Bing-Fang Bao,Improved formula of wavefront reconstruction from a radial shearing inter ferogram, Optics Letters, 33(3), 210-212, 2008.

  330. Yu-Hong Tao, Qiong-Hua Wang*, Ren-Liang Zhao, Jun Tian, Fabry-Perot microcavity luminescent screens for optically written display, Optical Engineering, 46(7), 074001:1-3,2007.

  331. Qiong-Hua Wang*, Rui-Gai Chen, Interference filters in optically written display based on up-conversion of near infrared light, Electronics Letters, 41(22), 1217-1219,2005.

  332. Qiong-Hua Wang*, Michael Bass, Photo-luminescent screens for optically written displays based on up-conversion of near infrared light, Electronics Letters, 40(16), 987-989,2004.

  333. Qiong-Hua Wang*, Thomas-X. Wu and Shin-Tson Wu, A chromatic polarization switch using a film-compensated twisted nematic liquid crystal cell, Liquid Crystals, 31(4), 535-539,2004.

  334. Qiong-Hua Wang*, Jian-Bo Cheng, Shin-Tson Wu, Chang-Jun Ge, Guang-Jiu Fang, Kang-Cheng Qi, and Hai-Bo Rao, Cathode ray tube addressed liquid crystal light valveprojection display, Optical Engineering, 42(3), 837-839, 2003.

  335. Qiong-Hua Wang*, Jian-Bo Cheng, Zu-Lun Lin, and Gang Yang, 5-inch MgAl2O4 phosphor screen for projection display, Electronic Letters, 38(24), 1523-1524, 2002.

  336. Shin-Tson Wu, Qiong-Hua Wang*, Michael D. Kempe, and Julia A. Kornfield, Perdeuterated cyanobiphenyl liquid crystals for infrared applications, Journal of Applied Physics, 92(12), 7146-7148, 2002.

  337. Qiong-Hua Wang, Jian-Bo Cheng, and Shin-Tson Wu*, Sealing processes of MgAl2O4 to glass for projection cathode ray tubes, Japanese Journal of Applied Physics,41,6110-6111,2002.

 
 
 
 
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