Tong Qing,Yu Lei,Zhaowei Xin, Xinyu Zhang, Hongshi Sang, Changsheng Xie. Dual-mode Photosensitive Arrays Based on Integration of Liquid Crystal Microlenses and CMOS Sensors for Obtaining Intensity Images and Wavefronts of objects. Optics Express, 24(3): 254864(2016).
Jiuning Lin, Qing Tong, Yu Lei, Zhaowei Xin, Xinyu Zhang, An Ji, Hongshi Sang, Changsheng Xie. An Arrayed Liquid Crystal Fabry-Perot Infrared Filter for Electrically Tunable Spectral Imaging Detection. IEEE Sensors Journal, 16(8):2397-2408(2016).
DI FAN, CHENG WANG, BO ZHANG, QING TONG, YU LEI, ZHAOWEI XIN, DONG WEI, XINYU ZHANG, AND CHANGSHENG XIE. Arrayed optical switches based on integrated liquid-crystal microlens arrays driven and adjusted electrically. Appl. Opt., 56(6):1788-1794(2017).
JIUNING LIN, QING TONG, YU LEI, ZHAOWEI XIN, DONG WEI, XINYU ZHANG, JING LIAO, HAIWEI WANG, AND CHANGSHENG XIE. Electrically tunable infrared filter based on a cascaded liquid-crystal Fabry–Perot for spectral imaging detection. Appl. Opt., 56(7):1925-1929(2017).
Yu Lei, Qing Tong, Zhaowei Xin, Dong Wei, Xinyu, Zhang, Jing Liao, Haiwei Wang, Changsheng Xie. Three dimensional measurement with an electrically tunable focused plenoptic camera. Rev. Sci. Instrum. 88,032017-1-9(2017).
Zhaowei Xin, Qing Tong, Yu Lei , Dong Wei, Xinyu Zhang,Jing Liao, Haiwei Wang and Changsheng Xie. An electrically tunable polarization and polarization-independent liquid-crystal microlens array for imaging applications. J.Opt.19: 095602(2017).
Yong Wu, Wei Hu, Qing Tong, Yu Lei , Zhaowei Xin, Dong Wei, Xinyu Zhang, Jing Liao, Haiwei Wang and Changsheng Xie. Graphene-based liquid-crystal microlens arrays for synthetic-aperture imaging. J.Opt.19:095102(2017).
ZHAOWEI XIN, DONG WEI, XINGWANG XIE, MINGCE CHEN, XINYU ZHANG, JING LIAO, HAIWEI WANG, AND CHANGSHENG XIE. Dual-polarized light-field imaging micro system via a liquid-crystal microlens array for direct three-dimensional observation. Optics Express, 26(4):4035-4049(2018).
Q. TONG, CHEN, Z. XIN, D. WEI, X. ZHANG, J. LIAO, H. WANG, AND C. XIE. Depth of field extension and objective space depth measurement based on wavefront imaging. Optics Express, 26(14):18368-18385(2018).
ZHAOWEI XIN, DONG WEI, MINGCE CHEN, CHAI HU, JIAN LI, XINYU ZHANG, JING LIAO, HAIWEI WANG, AND CHANGSHENG XIE. Graphene-based adaptive liquid-crystal microlens array for a wide infrared spectral region. Optical Materials Express, 9(1):183-194(2019).
Zhonglun Liu, Mingce Chen, Zhaowei Xin, Wanwan Dai, Xinjie Han Xinyu Zhang, HaiweiWang and Changsheng Xie. Research on a Dual-Mode Infrared Liquid-Crystal Device for Simultaneous Electrically Adjusted Filtering and Zooming. Micromachines, 10(2):137(2019).
Xin Zhaowei, Deng Bing, Wei Dong, Chen Mingce, Hu Chai, Zhang Xinyu, Wang Haiwei, Xie Changsheng, Liu Zhongfan, and Peng Hailin. Macroscale single-crystal graphene-templated directional alignment of liquid-crystal microlens array. Applied Physics Letters, 115.071903 (2019).
Deng Bing, Xin Zhaowei, Xue Ruiwen, Zhang Shishu, Xu Xiaozhi, Cao Jing, Tang Jilin, Qi Yue, Wang Yani, Zhao Yan, Sun Luzhao, Wang Huihui, Liu Kaihui, Rummeli Mark H., Weng Lutao, Luo Zhengtang, Tong Lianming, Zhang Xinyu, Xie Changsheng, Liu Zhongfan, and Peng Hailin. Scalable and ultrafast epitaxial growth of single-crystal graphene wafers for electrically tunable liquid-crystal microlens arrays. Science Bulletin, 64: 659–668 (2019).
Dong Wei, Zhaowei Xin, Mingce Chen, Chai Hu, Xinyu Zhang, Haiwei Wang,and Changsheng Xie. Nanofocusing on gold planar nanotip arrays. AIP Advances, 9.065103(2019).
MINGCE CHEN, HUIYING WANG, WANWAN DAI, LEILEI NIU,JINXING LIU, QI SHAO, XINYU ZHANG, ,* HAIWEI WANG, AND CHANGSHENG XIE. Electrically controlled liquid-crystal microlens matrix with a nested electrode array for efficiently tuning and swinging focus. Optics Express, 27(16):23422-23431(2019).
MINGCE CHEN, WANWAN DAI, QI SHAO, HUIYING WANG, ZHONGLUN LIU, LEILEI NIU, XINYU ZHANG,* HAIWEI WANG,AND CHANGSHENG XIE..Optical properties of electrically controlled arc-electrode liquid-crystal microlens array for wavefront measurement and adjustment. Appl.Opt., 58(24):6611-6617(2019).
Mingce Chen, Xinjie Han, Wanwan Dai, Huiying Wang, Leilei Niu, Qi Shao, Xinyu Zhang, * Haiwei Wang, AND Changsheng Xie. Optical properties of liquid crystal micro lens with an arrayed planar non-uniform spiral micro-coil electrode . Journal of the Optical Society of America B-Optical Physics, 36(11):3174-3180(2019).
DONG WEI, CHAI HU, MINGCE CHEN, JIASHUO SHI, JUN LUO, XINYU ZHANG,* HAIWEI WANG, AND CHANGSHENG XIE. Optical modulator based on the coupling effect of different surface plasmon modes excited on the metasurface. Optical Materials Express, 10(1):105-118(2020).
JIASHUO SHI,MINGCE CHEN, DONG WEI, CHAI HU,JUN LUO, HAIWEI WANG, XINYU ZHANG, AND CHANGSHENG XIE. Anti-noise diffractive neural network for constructing an intelligent imaging detector array. Optics Express, 28(25):37686-37699(2020).
Dong Wei, Chai Hu, Mingce Chen, Jiashuo Shi, Jun Luo, Haiwei Wang, Changsheng Xie, and Xinyu Zhang. Light absorption and nanofocusing on a tapered magnetic metasurface.
Appl. Phys. Lett. 117, 243102(2020).
Mingce Chen, Wenda He, Dong Wei, Chai Hu, Jiashuo Shi, Xinyu Zhang, Haiwei Wang and Changsheng Xie. Depth-of-Field-Extended Plenoptic Camera Based on Tunable Multi-Focus Liquid-Crystal Microlens Array. Sensors, 2020, 20, 4142.
Mingce Chen, Qi Shao, Wenda He, Dong Wei, Chai Hu Jiashuo Shi, Kewei Liu, HaiweiWang , Changsheng Xie and Xinyu Zhang. Electrically Controlled Liquid Crystal Microlens Array Based on Single-Crystal Graphene Coupling Alignment for Plenoptic Imaging. Micromachines, 11.1039(2020).
Chang Liu, Chai Hu, Dong Wei, Mingce Chen, Jiashuo Shi, Haiwei Wang , Changsheng Xie and Xinyu Zhang. Generating Convergent Laguerre-Gaussian Beams Based on an Arrayed Convex Spiral Phaser Fabricated by 3D Printing. Micromachines, 11:00771(2020).
DongWei, Chai Hu Mingce Chen, Jiashuo Shi1, Jun Luo1, HaiweiWang, Changsheng Xie, Xinyu Zhang. Electrically Adjusted Infrared Transmittance of a Functioned Silicon via an Au Nano-Cone Metasurface. Nano Select, 1-7-202000156(2020).
Jiashuo Shi, Liang Zhou, Taige Liu, Chai Hu, Kewei Liu, Jun Luo, Haiwei Wang, Changsheng Xie, AND Xinyu Zhang. Multiple-view D2NNs array realizing robust 3D object recognitionol. Optics Letters, 46(14):3388-3391(2021).
ZHE WANG, MINGCE CHEN, CHAI HU, KEWEI LIU, ZHEXUN LI, MAO YE, ZHAOMIN CHEN, XIANGDONG YUAN, HAIWEI WANG, CHANGSHENG XIE, AND XINYU ZHANG. Arrayed dual-mode integrated liquid crystal microlens driven jointly by both independent signal voltages. Optics Express, 29(24):40617-40632(2021).
Jiashuo Shi, Yingshi Chen, AND Xinyu Zhang. Broad-spectrum diffractive network via ensemble learning. Optics Letters, 47(3):605-608(2022).
Mingce Chen, Zhexun Li, Mao Ye, Taige Liu, Chai Hu, Jiashuo Shi, Kewei Liu, Zhe Wang and Xinyu Zhang. All-In-Focus Polarimetric Imaging Based on an Integrated Plenoptic Camera with a Key Electrically Tunable LC Device. Micromachines, 13-192(2022).
Mingce Chen, Zhexun Li, Taige Liu, Zhe Wang, Zhaomin Chen, Kewei Liu, Chai Hu, Mao Ye, Jiashuo Shi, AND Xinyu Zhang. Spatial separation of azimuthally and radially polarized beams from non-polarized light waves based on the electrically controlled birefringence effect. Optics Letters, 47(5):1070-1073(2022).
Liang Zhou, Jiashuo Shi and Xinyu Zhang. The mr-MDA An Invariant to Shifting, Scaling, and Rotating Variance for 3D Object Recognition using Diffractive Deep Neural Networ. Sensors, 2022(22)7754-1-15.
Kewei Liu, Taige Liu, Zhe Wang, Chai Hu, Jiashuo Shi, Mingce Chen, Mao Ye, Haiwei Wang, Changsheng Xie, Xinyu Zhang. THz wavefrom and wavefront manipulation based on beam diffractive transformation for forming simulation lightfields. Infrared Physics and Technolog,124:104225(2022).
CHAI HU, TAIGE LIU, KEWEI LIU, JIASHUO SHI, MAO YE, ZHE WANG, AND XINYU ZHANG. Plasmonic nano-focusing enhancement of nano-rhombus-shaped resonators in the sub-diffraction limit for highly efficient lightwave collection. Optical Materials Express, 2022, 12(8):3313-3326.
Chai Hu, Taige Liu, Kewei Liu, Jiashuo Shi, MaoYe & Xinyu Zhang. Lightwave nano-converging enhancement by an arrayed optical antenna based on metallic nano-cone-tips for CMOS imaging detection. Scientifc Reports, 2022,12:15761.
MINGCE CHEN, MAO YE, ZHE WANG, CHAI HU, TAIGE LIU, KEWEI LIU, JIASHUO SHI, AND XINYU ZHANG. Electrically addressed focal stack plenoptic camera based on a liquid-crystal microlens array for all-in-focus imaging. Optics Express, 2022, 30(19):34938-34955.
Mingce Chen, Mao Ye, Zhe Wang, Taige Liu, Chai Hu, Kewei Liu, Jiashuo Shi, AND Xinyu Zhang. Orthogonal separation of arbitrary vector beams from non-polarized light waves based on a patterned liquid-crystal photo-alignment. Optics Letters, 2022,47(19):5036-5039.
Wenhai Huang, Taige Liu, Zhe Wang, Xiangdong Yuan, Bo Zhang, Chai Hu, Kewei Liu, Jiashuo Shi, and Xinyu Zhang. Flexible refractive and diffractive micro-optical films shaped by fitting aspherical microprofiles with featured aperture and depth and their spatial arrangement for imaging applications. J.Vac.Sci.Technol. B40(2)2022.
张新宇,等.一种红外大景深面阵成像探测芯片.中国专利(ZL201310426200.9).
张新宇,等.一种红外立体成像探测芯片.中国专利(ZL201310408366.8).
张新宇,等.一种红外透视成像探测芯片.中国专利(ZL201310418144.4).
张新宇,等.一种红外图像与波前双模一体化成像探测芯片.中国专利(ZL201310419820.X).
张新宇,等.一种基于单眼套叠的全色复眼成像探测芯片.中国专利(ZL201310433458.1).
张新宇,等.集成液晶光控阵与面阵光敏结构的红外成像探测芯片.中国专利(ZL201210315213.4).
张新宇,等.一种液晶基电调空间分辨率全色成像探测芯片.中国专利(ZL201310418120.9).
张新宇,等.一种宽照度全色成像探测芯片.中国专利(ZL201310431718.1).
张新宇,等.一种可寻址电调成像波谱红外探测芯片.中国专利(ZL201310454559.7).
张新宇,等.液晶基电调成像波谱面阵红外探测芯片.中国专利(ZL201210315340.4).
康胜武,佟庆,张新宇,等. 电扫描双通光孔径焦点可摆动液晶微透镜及其制备方法.中国专利(ZL201310435104.0).
陈鑫,康胜武,佟庆,张新宇,等.用于面阵液晶波谱及光束变换的数字控制组件及面阵电控液晶器件. 中国专利(ZL201220422383.8).
康胜武,刘侃,汪继平,张新宇,等. 太赫兹波长仪.中国专利(ZL201120251130.4)
张新宇,等.一种基于电控液晶平面微透镜的波前控制芯片.中国专利(ZL201410577290.6).
张新宇,等.一种电控液晶菲涅耳红外聚束微透镜芯片.中国专利(ZL201410576830.9).
张新宇,等.基于电控液晶红外发散平面微柱镜的红外波束控制芯片.中国专利(ZL201410579907.8).
张新宇,等.基于电控液晶红外汇聚平面微柱镜的红外波束控制芯片.中国专利(ZL201410579932.6).
张新宇,等.一种红外液晶相控阵芯片.中国专利(ZL201410615813.1).
张新宇,等.基于电控液晶红外发散平面微透镜的红外波束控制芯片.中国专利(ZL201410577371.6).
张新宇,等.基于电控液晶双模微透镜的控光芯片.中国专利(ZL201410614319.3).
张新宇,等.混合集成面阵液晶微透镜与红外探测器的波前测量芯片.中国专利(ZL201210312447.3).
张新宇,等.一种红外聚光芯片.中国专利(ZL201410645812.7)
张新宇,等.基于双路电压信号驱控的面阵电控液晶光发散微柱镜芯片.中国专利(ZL201410576827.7).
张新宇,等.一种双模复合红外电控液晶微透镜阵列芯片.中国专利(ZL201410577611.2).
张新宇,等.一种基于波矢测量的红外成像探测芯片.中国专利(ZL201310443095.X).
张新宇,等.一种液晶基多眼套叠仿生成像探测芯片.中国专利(ZL201410577151.3).
张新宇,等.一种液晶基红外波束偏振控制芯片.中国专利(ZL201410577153.2).
张新宇,等.一种双路电压信号驱控的面阵电控液晶光发散微透镜芯片.中国专利(ZL201410576828.1).
张新宇,等.一种石墨烯基双模混合集成电控液晶微透镜阵列.中国专利(ZL201410576693.9).
张新宇,等.基于波前调节的电控液晶激光整形芯片.中国专利(ZL201410618045.5).
张新宇,等.一种基于电控液晶汇聚微透镜的波前测量芯片.中国专利(ZL201410616547.4).
张新宇,等.基于双路电压信号驱控的面阵电控液晶光发散微柱镜芯片.中国专利(ZL201410576827.7).
张新宇,等.一种液晶基单眼复眼一体化成像探测芯片.中国专利(ZL201410579934.5).
罗俊,别业华,李维军,张新宇,等.基于超材料的肖特基型太赫兹多谱信号探测器和制备方法.中国专利 (ZL201410455189.3).
罗俊,别业华,李维军,张新宇,等.基于超材料的肖特基型毫米波多谱信号探测器和制备方法.中国专利 (ZL201410456515.2).
罗俊,别业华,李维军,张新宇,等.基于超材料的肖特基型远红外多谱信号探测器和制备方法.中国专利(ZL201410455227.5).
罗俊,别业华,李维军,张新宇,等.基于超材料的远红外单谱信号探测器及其制备方法.中国专利(ZL201410454835.4).
罗俊,别业华,李维军,张新宇,等.基于超材料的太赫兹单谱信号探测器及其制备方法.中国专利(ZL201410455234.5).
罗俊,别业华,李维军,张新宇,等.基于超材料的毫米波单谱信号探测器及其制备方法.中国专利(ZL201410456538.3).
张新宇,等.一种电调光反射率薄膜.中国专利(ZL201610145778.0).
张新宇,等.一种可寻址电调光反射率薄膜.中国专利(ZL201610147940.2).
张新宇,等.一种双路电控纳线簇电极的电调光透射薄膜.中国专利(ZL201610392288.0).
张新宇,等.一种基于金属平面微纳线尖簇电极的电调透光率薄膜.中国专利(ZL201610390204.X).
张新宇,等.一种基于金属纳尖阵电极的电调透射光薄膜.中国专利(ZL201610353247.0).
张新宇,等.一种金属基平面纳尖簇电极的电调透光率薄膜.中国专利(ZL201610388269.0).
张新宇,等.一种混合集成电控液晶光开关阵列.中国专利(ZL201510897626.1).
张新宇,等.一种双模一体化电控液晶光开关阵列.中国专利(ZL201510901830.6).
张天序,洪汉玉,张新宇.气动光学效应校正-原理、方法与应用. 合肥:中国科学技术大学出版社, 2014.01.
康胜武,张新宇. 电控液晶微透镜及其成像技术原理. 2019.11.
张新宇,谢长生.折射衍射微光学结构的单步光刻与湿法刻蚀原理与应用.国防工业出版社,2021.10.
张新宇,刘侃,陈明策.液晶器件的电调波谱成像探测技术.国防工业出版社,2021.10.
罗俊,魏东,张新宇.超材料光学射频探测原理与方法.国防工业出版社,2021.03.。
张新宇,雷宇,佟庆信,钊伟.液晶基多模控光成像探测.武汉:304am永利集团出版社,2021.08.