[1] |
Yangyang Zhou(周杨阳), and Huanyang Chen(陈焕阳). Near-field multiple super-resolution imaging from Mikaelian lens to generalized Maxwell's fish-eye lens[J]. 中国物理B, 2022, 31(10): 104205-104205. |
[2] |
Xiao-Gang Wang(汪小刚) and Hao-Yu Wei(魏浩宇). Deep-learning-based cryptanalysis of two types of nonlinear optical cryptosystems[J]. 中国物理B, 2022, 31(9): 94202-094202. |
[3] |
Jiaheng Xie(谢佳衡), Zijing Zhang(张子静)†, Mingwei Huang(黄明维),Jiahuan Li(李家欢), Fan Jia(贾凡), and Yuan Zhao(赵远)‡. Spatially modulated scene illumination for intensity-compensated two-dimensional array photon-counting LiDAR imaging[J]. 中国物理B, 2022, 31(9): 90701-090701. |
[4] |
Hui Guo(郭辉), Le Wang(王乐), and Sheng-Mei Zhao(赵生妹). Imaging a periodic moving/state-changed object with Hadamard-based computational ghost imaging[J]. 中国物理B, 2022, 31(8): 84201-084201. |
[5] |
Lina Zhu(朱丽娜), Fei Li(李飞), Zeyu Huang(黄泽宇), and Tingyu Zhao(赵廷玉). An apodized cubic phase mask used in a wavefront coding system to extend the depth of field[J]. 中国物理B, 2022, 31(5): 54217-054217. |
[6] |
Yun-Qing Tang(唐云青), Cai-Wei Zhou(周才微), Hui-Wen Hao(蒿慧文), and Yu-Jie Sun(孙育杰). Deep learning facilitated whole live cell fast super-resolution imaging[J]. 中国物理B, 2022, 31(4): 48705-048705. |
[7] |
Jun Wang(王君), Yuan-Xi Zhang(张沅熙), Fan Wang(王凡), Ren-Jie Ni(倪仁杰), and Yu-Heng Hu(胡玉衡). Color-image encryption scheme based on channel fusion and spherical diffraction[J]. 中国物理B, 2022, 31(3): 34205-034205. |
[8] |
Yi Kang(康祎), Leihong Zhang(张雷洪), Hualong Ye(叶华龙), Dawei Zhang(张大伟), and Songlin Zhuang(庄松林). Ghost imaging-based optical cryptosystem for multiple images using integral property of the Fourier transform[J]. 中国物理B, 2021, 30(12): 124207-124207. |
[9] |
Jian-Gong Cui(崔建功), Ya-Xin Yu(余亚鑫), Xiao-Xia Chu(楚晓霞), Rong-Yu Zhao(赵荣宇), Min Zhu(祝敏), Fan Meng(孟凡), and Wen-Dong Zhang(张文栋). Refocusing and locating effect of fluorescence scattering field[J]. 中国物理B, 2021, 30(12): 124210-124210. |
[10] |
Tuo Li(李拓), Wen-Xiu Lei(雷文秀), Xin-Kai Sun(孙鑫凯), Jun Dong(董军), Ye Tao(陶冶), and Yi-Shi Shi(史祎诗). Possibility to break through limitation of measurement range in dual-wavelength digital holography[J]. 中国物理B, 2021, 30(9): 94201-094201. |
[11] |
Xingbing Chao(潮兴兵), Yuan Gao(高源), Jianping Ding(丁剑平), and Hui-Tian Wang(王慧田). Impact of the spatial coherence on self-interference digital holography[J]. 中国物理B, 2021, 30(8): 84212-084212. |
[12] |
Chao Gao(高超), Xiaoqian Wang(王晓茜), Shuang Wang(王爽), Lidan Gou(苟立丹), Yuling Feng(冯玉玲), Guangyong Jin(金光勇), and Zhihai Yao(姚治海). Single pixel imaging based on semi-continuous wavelet transform[J]. 中国物理B, 2021, 30(7): 74201-074201. |
[13] |
Yi-Yi Huang(黄祎祎), Chen Ou-Yang(欧阳琛), Ke Fang(方可), Yu-Feng Dong(董玉峰), Jie Zhang(张杰), Li-Ming Chen(陈黎明), and Ling-An Wu(吴令安). High speed ghost imaging based on a heuristic algorithm and deep learning[J]. 中国物理B, 2021, 30(6): 64202-064202. |
[14] |
Zhe Hu(胡哲), Wen-Qiang Hua(滑文强), and Jie Wang(王 劼). Real time high accuracy phase contrast imaging with parallel acquisition speckle tracking[J]. 中国物理B, 2021, 30(6): 64201-064201. |
[15] |
Xing He(何行), Sheng-Mei Zhao(赵生妹), and Le Wang(王乐). Handwritten digit recognition based on ghost imaging with deep learning[J]. 中国物理B, 2021, 30(5): 54201-054201. |