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Dazhao Zhu1,Liang Xu2,Chenliang Ding1,Zhenyao Yang1,Yiwei Qiu1,Chun Cao1,Hongyang He3,Jiawei Chen3,Mengbo Tang1,Lanxin Zhan1,Xiaoyi Zhang1,Qiuyuan Sun1,Chengpeng Ma1,Zhen Wei1,Wenjie Liu1,2,Xiang Fu4,Cuifang Kuang1,2,Haifeng Li1,2,Xu Liu1,2(Zhejiang Lab,Research Center for Intelligent Chips and Devices;Zhejiang University,College of Optical Science and Engineering,State Key Laboratory of Modern Optical Instrumentation;Zhejiang University,College of Control Science and Engineering,State Key Laboratory of Industrial Control Technology;Zhejiang Lab,Research Center for Humanoid Sensing,Zhejiang Lab).Direct laser writing breaking diffraction barrier based on two-focus parallel peripheral-photoinhibition lithography[J].Advanced Photonics,2022,第6期
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Trevon Badloe1,Seokho Lee1,Junsuk Rho1,2,3(Pohang University of Science and Technology,Department of Mechanical Engineering;Pohang University of Science and Technology,Department of Chemical Engineering;POSCO-POSTECH-RIST Convergence Research Center for Flat Optics and Metaphotonics).Computation at the speed of light:metamaterials for all-optical calculations and neural networks[J].Advanced Photonics,2022,第6期
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Xiang You1,2,3,Ming-Yang Zheng4,Si Chen2,3,Run-Ze Liu2,3,Jian Qin2,3,Mo-Chi Xu2,3,Zheng-Xuan Ge2,3,Tung-Hsun Chung2,3,Yu-Kun Qiao2,3,Yang-Fan Jiang4,Han-Sen Zhong2,3,Ming-Cheng Chen2,3,Hui Wang2,3,Yu-Ming He2,3,Xiu-Ping Xie4,Hao Li5,Li-Xing You5,Christian Schneider6,7,Juan Yin2,3,Teng-Yun Chen2,3,Mohamed Benyoucef8,Yong-Heng Huo2,3,Sven H?fling6,Qiang Zhang2,3,4,Chao-Yang Lu2,3,9,Jian-Wei Pan2,3(University of Science and Technology of China,School of Cyberspace Security;University of Science and Technology of China,Hefei National Laboratory for Physical Sciences at Microscale,Department of Modern Physics;University of Science and Technology of China,CAS Centre for Excellence in Quantum Information and Quantum Physics;Jinan Institute of Quantum Technology;Chinese Academy of Sciences,Shanghai Institute of Microsystem and Information Technology (SIMIT),State Key Laboratory of Functional Materials for Informatics;Universitat Würzburg,Technische Physik,Physikalisches Instit?t and Wilhelm Conrad R?ntgen-Center for Complex Material Systems;University of Oldenburg,Institute of Physics;University of Kassel,Institute of Nanostructure Technologies and Analytics,CINSaT;NYU-ECNU Institute of Physics at NYU Shanghai).Quantum interference with independent single-photon sources over 300 km fiber[J].Advanced Photonics,2022,第6期
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Amirhossein Saba,Carlo Gigli,Ahmed B.Ayoub,Demetri Psaltis(école Polytechnique Fédérale de Lausanne,Optics Laboratory).Physics-informed neural networks for diffraction tomography[J].Advanced Photonics,2022,第6期
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Zhaoyang Sun1,Yang Li1,Benfeng Bai1,Zhendong Zhu2,Hongbo Sun1(Tsinghua University,State Key Laboratory of Precision Measurement and Instruments,Department of Precision Instrument;National Institute of Metrology).Silicon nitride-based Kerr frequency combs and applications in metrology[J].Advanced Photonics,2022,第6期
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Jia Zhu(Nanjing University,College of Engineering and Applied Science).Endless frontier of plasmonics:a conversation with Naomi Halas[J].Advanced Photonics,2022,第6期
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Pierre Didier1,2,Hamza Dely,Thomas Bonazzi,Olivier Spitz1,4,Elie Awwad1,étienne Rodriguez,Angela Vasanelli,Carlo Sirtori,Frédéric Grillot1,5(Télécom Paris,Institut Polytechnique de Paris,LTCI;mir Sense,Centre d'integration Nano Innov;ENS,Université PSL,CNRS,Sorbonne Université,Université de Paris,Laboratoire de Physique de l’école Normale Supérieure;University of Central Florida,CREOL,College of Optics and Photonics;University of New Mexico,Center for High Technology Materials).High-capacity free-space optical link in the midinfrared thermal atmospheric windows using unipolar quantum devices[J].Advanced Photonics,2022,第5期
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Linpeng Lu1,2,3,4,Jiaji Li1,2,3,4,Yefeng Shu1,2,3,4,Jiasong Sun1,2,3,4,Jie Zhou1,2,3,4,Edmund Y.Lam5,Qian Chen2,3,Chao Zuo1,2,3,4(Nanjing University of Science and Technology,Smart Computational Imaging Laboratory (SCILab);Nanjing University of Science and Technology,School of Electronic and Optical Engineering;Jiangsu Key Laboratory of Spectral Imaging & Intelligent Sense;Nanjing University of Science and Technology,Smart Computational Imaging Research Institute (SCIRI);The University of Hong Kong,Department of Electrical and Electronic Engineering).Hybrid brightfield and darkfield transport of intensity approach for high-throughput quantitative phase microscopy[J].Advanced Photonics,2022,第5期
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Jinhai Zou1,2,Jinfen Hong1,2,Zhuang Zhao3,Qingyuan Li1,Qiujun Ruan1,Hang Wang1,Yikun Bu1,Xianchao Guan3,Min Zhou3,Zhiyong Feng3,Zhengqian Luo1,2,4(Xiamen University,School of Electronic Science and Engineering,Fujian Key Laboratory of Ultrafast Laser Technology and Applications;Innovation Laboratory for Sciences and Technologies of Energy Materials of Fujian Province (IKKEM);Huawei Technologies Co.,Ltd.;Xiamen University,Shenzhen Research Institute).3.6 W compact all-fiber Pr3+-doped green laser at 521 nm[J].Advanced Photonics,2022,第5期
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Xiang Xi1,Chang-Ling Zou2,3,Chun-Hua Dong2,3,Xiankai Sun1(The Chinese University of Hong Kong,Department of Electronic Engineering;University of Science and Technology of China,CAS Key Laboratory of Quantum Information;University of Science and Technology of China,CAS Center for Excellence in Quantum Information and Quantum Physics).Highly tunable broadband coherent wavelength conversion with a fiber-based optomechanical system[J].Advanced Photonics,2022,第5期
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Jian Wang(Huazhong University of Science and Technology,Wuhan National Laboratory for Optoelectronics and School of Optical and Electronic Information;Optics Valley Laboratory).High-dimensional orbital angular momentum comb[J].Advanced Photonics,2022,第5期
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Raphael Pooser(Oak Ridge National Laboratory).Hyperentanglement goes deterministic and large-scale[J].Advanced Photonics,2022,第5期
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Pengfei Xu1,Zhiping Zhou1,2(Peking University,State Key Laboratory of Advanced Optical Communication Systems and Networks,School of Electronics;Chinese Academy of Sciences,Shanghai Institute of Optics and Fine Mechanics).Silicon-based optoelectronics for general-purpose matrix computation:a review[J].Advanced Photonics,2022,第4期
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Bo Jiang1,Song Zhu1,2,Linhao Ren1,Lei Shi1,3,Xinliang Zhang1,3(Huazhong University of Science and Technology,Wuhan National Laboratory for Optoelectronics;Nanyang Technological University,School of Electrical and Electronic Engineering;Optics Valley Laboratory).Simultaneous ultraviolet, visible, and near-infrared continuous-wave lasing in a rare-earth-doped microcavity[J].Advanced Photonics,2022,第4期
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Quanlong Yang1,2,Dongyang Wang3,Sergey Kruk1,Mingkai Liu1,Ivan Kravchenko4,Jiaguang Han5,Yuri Kivshar1,Ilya Shadrivov1(Australian National University,Nonlinear Physics Centre,Research School of Physics;Central South University,School of Physics and Electronics;The Hong Kong University of Science and Technology,Department of Physics;Center for Nanophase Materials Sciences,Oak Ridge National Laboratory;Tianjin University,Center for Terahertz Waves and College of Precision Instrument and Optoelectronics Engineering).Topology-empowered membrane devices for terahertz photonics[J].Advanced Photonics,2022,第4期
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Zhihao Zhou1,Wei Liu2,Hengzhe Yan1,Xianfeng Chen2,Wenjie Wan1,2(Shanghai Jiao Tong University,University of Michigan–Shanghai Jiao Tong University Joint Institute,State Key Laboratory of Advanced Optical Communication Systems and Networks;Shanghai Jiao Tong University,Department of Physics and Astronomy).Nonlinear thermal emission and visible thermometry[J].Advanced Photonics,2022,第4期
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Zhixia Xu1,2,Jie Chang2,Jinye Tong2,Daniel F.Sievenpiper3,Tie Jun Cui1(Southeast University,State Key Laboratory of Millimeter Waves;Dalian Maritime University,School of Information Science and Technology;University of California San Diego,Department of Electrical and Computer Engineering).Near-field chiral excitation of universal spin-momentum locking transport of edge waves in microwave metamaterials[J].Advanced Photonics,2022,第4期
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Wensheng Wang1,Chuankang Li1,Zhengyi Zhan1,Zhimin Zhang1,Yubing Han1,Cuifang Kuang1,2,3,4,Xu Liu1,2(Zhejiang University,State Key Laboratory of Modern Optical Instrumentation,College of Optical Science and Engineering;Shanxi University,Collaborative Innovation Center of Extreme Optics;Research Center for Intelligent Chips and Devices,Zhejiang Lab;Zhejiang University,Ningbo Research Institute).Dual-modulation difference stimulated emission depletion microscopy to suppress the background signal[J].Advanced Photonics,2022,第4期
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Xin Ye1,2,Xiao Qian1,2,Yuxin Chen1,2,Rui Yuan1,Xingjian Xiao1,2,Chen Chen1,2,Wei Hu1,Chunyu Huang1,Shining Zhu1,2,Tao Li1,2(Nanjing University,College of Engineering and Applied Sciences,National Laboratory of Solid State Microstructures,Key Laboratory of Intelligent Optical Sensing and Integration,Jiangsu Key Laboratory of Artificial Functional Materials;Collaborative Innovation Center of Advanced Microstructures).Chip-scale metalens microscope for wide-field and depth-of-field imaging[J].Advanced Photonics,2022,第4期
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Chengkuan Gao,Prabhav Gaur,Shimon Rubin,Yeshaiahu Fainman(University of California,San Diego,Department of Electrical and Computer Engineering).Thin liquid film as an optical nonlinear-nonlocal medium and memory element in integrated optofluidic reservoir computer[J].Advanced Photonics,2022,第4期
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Ya Guo1,2,3,Qiang Cai1,Pu Li1,2,Ruonan Zhang3,Bingjie Xu4,K.Alan Shore5,Yuncai Wang2(Taiyuan University of Technology,Key Laboratory of Advanced Transducers and Intelligent Control Systems,Ministry of Education;Guangdong University of Technology,School of Information Engineering,Guangdong Provincial Key Laboratory of Photonics Information Technology;Northwestern Polytechnical University,School of Electronics and Information;Institute of Southwestern Communication,Science and Technology on Communication Laboratory;Bangor University,School of Electronic Engineering).Ultrafast and real-time physical random bit extraction with all-optical quantization[J].Advanced Photonics,2022,第3期
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Guanyu Chen1,Nanxi Li2,Jun Da Ng1,Hong-Lin Lin1,Yanyan Zhou2,Yuan Hsing Fu2,Lennon Yao Ting Lee2,Yu Yu3,Ai-Qun Liu4,Aaron J.Danner1(National University of Singapore,Department of Electrical and Computer Engineering;A*STAR(Agency for Science),Technology and Research,Institute of Microelectronics;Huazhong University of Science and Technology,School of Optical and Electronic Information,Wuhan National Laboratory for Optoelectronics;Nanyang Technological University,Quantum Science and Engineering Centre).Advances in lithium niobate photonics:development status and perspectives[J].Advanced Photonics,2022,第3期
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David E.Fernandes1,Ricardo A.M.Pereira2,Sylvain Lannebère1,Tiago A.Morgado1,Mário G.Silveirinha3(University of Coimbra,Instituto de Telecomunica??es and Department of Electrical Engineering;University of Aveiro,Instituto de Telecomunica??es,Department of Electronics,Telecommunications and Informatics;University of Lisbon,Instituto Superior Técnico and Instituto de Telecomunica??es,Department of Electrical Engineering).Experimental verification of ill-defined topologies and energy sinks in electromagnetic continua[J].Advanced Photonics,2022,第3期
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Milad Gholipour Vazimali1,Sasan Fathpour1,2(University of Central Florida,CREOL,College of Optics and Photonics;University of Central Florida,Department of Electrical and Computer Engineering).Applications of thin-film lithium niobate in nonlinear integrated photonics[J].Advanced Photonics,2022,第3期
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Guangzhen Li1,Luojia Wang1,Rui Ye1,Shijie Liu1,Yuanlin Zheng1,2,Luqi Yuan1,Xianfeng Chen1,2,3(Shanghai Jiao Tong University,School of Physics and Astronomy,State Key Laboratory of Advanced Optical Communication Systems and Networks;Shanghai Research Center for Quantum Sciences;Shandong Normal University,Collaborative Innovation Center of Light Manipulation and Applications).Observation of flat-band and band transition in the synthetic space[J].Advanced Photonics,2022,第3期
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Juan Wei1,Yangyang Jiang1,Chenyuan Liu1,Jiayu Duan1,Shanying Liu1,Xiangmei Liu1,Shujuan Liu1,Yun Ma1,Qiang Zhao1,2(Nanjing University of Posts and Telecommunications,Institute of Advanced Materials and Institute of Flexible Electronics (Future Technology),State Key Laboratory of Organic Electronics and Information Displays and Jiangsu Key Laboratory for Biosensors;Nanjing University of Posts and Telecommunications,College of Electronic and Optical Engineering and Microelectronics and College of Flexible Electronics (Future Technology),Jiangsu Province Engineering Research Center for Fabrication and Application of Special Optical Fiber Materials and Devices).Organic room-temperature phosphorescent polymers for efficient X-ray scintillation and imaging[J].Advanced Photonics,2022,第3期
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Jintian Lin1,2,Saeed Farajollahi3,Zhiwei Fang4,Ni Yao5,6,Renhong Gao1,2,Jianglin Guan4,7,Li Deng4,7,Tao Lu3,Min Wang4,7,Haisu Zhang4,7,Wei Fang6,8,Lingling Qiao1,2,Ya Cheng1,2,4,7,9,10,11(Chinese Academy of Sciences (CAS),Shanghai Institute of Optics and Fine Mechanics (SIOM),State Key Laboratory of High Field Laser Physics and CAS Center for Excellence in Ultra-Intense Laser Science;University of Chinese Academy of Sciences,Center of Materials Science and Optoelectronics Engineering;University of Victoria,Department of Electrical and Computer Engineering;East China Normal University,School of Physics and Electronic Science,XXL—The Extreme Optoelectromechanics Laboratory;Research Center for Intelligent Sensing,Zhejiang Lab;Zhejiang University,College of Optical Science and Engineering,The Interdisciplinary Center for Quantum Information,State Key Laboratory of Modern Optical Instrumentation;East China Normal University,State Key Laboratory of Precision Spectroscopy;Jiaxing Institute of Zhejiang University,Intelligent Optics & Photonics Research Center;Shanxi University,Collaborative Innovation Center of Extreme Optics;Shandong Normal University,Collaborative Innovation Center of Light Manipulations and Applications;Shanghai Research Center for Quantum Sciences).Electro-optic tuning of a single-frequency ultranarrow linewidth microdisk laser[J].Advanced Photonics,2022,第3期
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