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个人简介        赵承良，2009年获浙江大学理学博士学位，现为苏州大学物理科学与技术学院副院长、教授、博士生导师，苏州市物理学会副理事长。获江苏省物理学会教育贡献奖、江苏省光学学会青年光学科技奖，入选江苏省高校“青蓝工程”优秀青年骨干教师、江苏省“双创博士”计划入选者、“典赞·科普苏州”年度科普人物、苏州大学“仲英青年学者”，荷兰代尔夫特理工大学访问学者和访问教授。曾分别在教育部科技司和苏州高新区挂职，并连续两年被江苏省委组织部评为优秀科技镇长团成员。主要从事光场调控、相干光学、微纳操控和衍射成像等方面的研究，在Advanced Photonics、Laser & Photonics Reviews、Photonics Research、Nanophotonics、SCIENCE CHINA Physics Mechanics & Astronomy、Optics Letters、Applied Physics Letters等期刊上发表学术论文110余篇，授权国家发明专利12项；主持国家自然科学基金面上项目3项、青年基金项目1项、江苏省高校自然科学基金项目1项；参与国家自然科学基金重点研究计划、教育部科学技术研究重点项目等国家级省级项目6项；联合培养和指导博士研究生和硕士研究生20余人。获浙江省自然科学学术奖三等奖、苏州市自然科学论文优秀学术论文二等奖1次和三等奖2次、江苏省第八届基础物理教师上好一堂课竞赛二等奖、江苏省高校大学生物理及实验科技作品创新竞赛优秀指导教师、苏州大学“主要通识课程十佳教师”、苏州大学第十届青年教师课堂教学竞赛一等奖和苏州大学交通银行教学奖。指导的学生获江苏省普通高校本专科优秀毕业设计（论文）一等奖1次、江苏省高校第九届、第十一届、第十八届大学生物理及实验科技作品创新竞赛一等奖2次和二等奖1次、国家级大学生创新性实验计划项目1项、莙政基金1项。,教育经历 硕士,2004年9月-2006年6月,光学,浙江大学 博士（硕博连读）,2006年9月-2009年6月,光学,浙江大学,工作经历 2018年07月-至今,苏州大学物理科学与技术学院,副院长、教授、博士生导师 2017年09月-2018年08月,国家教育部科技司（借调挂职） 2017年07月-2017年08月,荷兰代尔夫特理工大学,访问教授 2015年12月-2016年12月,荷兰代尔夫特理工大学,访问学者 2013年08月-2015年08月,苏州高新区（科技镇长团挂职）,高新区人才办副主任、通安镇党委副书记 2014年06月-2018年07月,苏州大学物理科学与技术学院,副教授、硕士生导师、光学与光子学研究所副所长 2011年06月-2018年07月,苏州大学物理科学与技术学院,副教授、硕士生导师 2009年06月-2011年06月,苏州大学物理科学与技术学院,讲师,社会职务 1、苏州大学2023年本科生“成长陪伴”工作“卓越导师”（2023）2、江苏省物理学会教育贡献奖（2022）3、江苏省物理学会科普工作委员会委员（2022）4、苏州市物理学会副理事长（2022）5、江苏省光学学会青年光学科技奖（2021）6、“典赞·科普苏州”年度科普人物（2021）7、苏州大学“仲英青年学者”（2020）8、江苏省“双创博士”计划入选者（2016）9、江苏省高校“青蓝工程”优秀青年骨干教师（2014）10、荷兰代尔夫特理工大学访问学者（2016）、访问教授（2017）11、担任Optica、Optics Letters、Optics Express、Journal of Optical Society of America A&B、Applied Physics B: Lasers and Optics、Applied Optics、Optics Communications、Physics Letters A、Journal of Modern Optics、Optics & Laser Technology、Chinese Physics、Chinese Optics Letters、Optica Applicata、中国激光、激光与光电子进展等国内外10余个国际权威杂志审稿人。12、国家自然科学基金委员会数学物理科学部物理科学一处评审专家13、江苏省企业院士工作站验收评审专家14、江苏省工程技术研究中心建设项目的验收评审专家15、江苏省科技支撑项目验收评审专家16、苏州经信委重大首台套项目评审专家GROUP PHOTO2022年10月2日于物理科技楼04/2024祝贺！！！张浩博士(本课题组博士生，已博士毕业入职河南科技大学)的工作“Single-shot phase retrieval for randomly fluctuated and obstructed vortex beams”在SCIENCE CHINA Physics, Mechanics & Astronomy上发表(https://doi.org/10.1007/s11433-023-2290-8）)工作是针对涡旋光束在复杂环境中受异常扰动状态下的传输，以及传输时经过随机遮挡条件下的拓扑结构测量难题，将光栅设计与相移自参考全息相结合，实现了复杂传输条件下的涡旋光束拓扑结构的单次测量。01/2024祝贺！！！博士二年级王卓异的工作“Coherence phase spectrum analyzer for randomly fluctuated fractional vortex beam”在Photonics Research上发表(https://doi.org/10.1364/PRJ.499520)这是我们继在《Nanophotonics》上发表综述性论文“Review on Fractional vortex beam”后又一篇关于分数阶涡旋光束的研究，首次定量测量部分相干分数阶拓扑荷的工作。本工作基于多模式叠层衍射成像技术结合角谱逆传输算法重构了源平面光场的相位信息与相干相位谱，根据相干相位谱信息的得到部分相干分数阶涡旋光束的拓扑荷数。部分相干涡旋光束的相干相位谱的提出与拓扑荷的精确测量，在光信息传输、光操纵、量子纠缠中具有潜在应用。10/2023 祝贺！赵承良教授获苏州大学2023年本科生“成长陪伴”工作“卓越导师”09/2023祝贺！！！博士一年级朱俊安的工作“Coherence modulation for anti-turbulence deep learning recognition of vortex beam”于9月1日在Applied Physics Letters上发表（https://doi.org/10.1063/5.0163922）虽晚犹至这是我们第一个基于深度学习的工作，将深度学习和部分相干涡旋光束相结合。恭喜俊安，也正式开启读博之旅，新学期新气象。本工作提出了一种基于相干调制与深度学习的涡旋光束拓扑荷识别方案，具有较强泛化能力并可以实现小训练集以及未知遮挡条件下的拓扑荷识别。该方案可以同步识别相干度信息，这将极大地拓展自由空间光通讯的信道容量。08/2023祝贺！本科生（三年级）林琪栋为第一作者的论文“Airy Transform of the New Power-Exponent-Phase Vortex beam”在Photonics上发表（Photonics,2023,10,974）。林琪栋同学为2020级物理学（国际班）的学生，从大一开始进入我们课题组进行导师制培养和学习，获第18届江苏省高校大学生物理与实验科技作品创新竞赛一等奖，并主持江苏省大学生创新创业训练计划项目一项！欢迎更多优秀的本科生加入我们课题组！07/2023祝贺！！！博士后卢兴园和博士生王卓异为共同一作的论文：基于非相干模式分解的四维部分相干统计光场测量“Four-dimensional experimental characterization of partially coherent light using incoherent modal decomposition”发表在Nanophotonics（Q1，IF：7.5）：论文链接：https://doi.org/10.1515/nanoph-2023-0288）感谢上海理工大学詹其文教授合作和支持。该工作是一种Genuine四维信息测量、普适、完备的方法，所测得的随机模式可用于但不限于重建部分相干光场的平均强度、交叉光谱密度和用于正交分解。这种方法的多功能性和灵活性使它能够用于揭示光场的不变量‎，或在通过复杂介质传播之后重建隐藏的信息。这个工作是我们后续系列工作的起点，期待更多工作形成闭环。07/2023祝贺！博士生赵雪纯为第一作者的论文“Ultrahigh presion angular measurement using frequencey shift of partially coherent beams ”发表在Laser & Photonics Reviews (DOI: 10.1002/lpor.202300318) （Q1, IF:11）。论文链接：https://onlinelibrary.wiley.com/doi/10.1002/lpor.202300318感谢合作者上海理工大学的詹其文教授的交流和支持我们基于周期性相干结构调控的部分相干光超高精度角速度测量，本工作充分展现了部分相干光的测量优势，也是我们在部分相干光应用领域的新拓展。06/2023祝贺两位研究生顺利毕业，张浩博士入职河南科技大学，黄琦硕士入职昆山巴城高级中学，祝前程似锦！05/2023祝贺！本科生（三年级）卢潇锬为第一作者的论文“Topological Charge Measurement of a Partially coherent Vortex Beam Using Dual Cylindrical Lenses with an Arbitray Angle”Photonics上发表（Photonics,2023,10,444）。卢潇锬同学从大一开始进入我们课题组进行导师制培养和学习，获第18届江苏省高校大学生物理与实验科技作品创新竞赛一等奖，并主持苏州大学“莙政基金”项目一项！欢迎更多优秀的本科生加入我们课题组！3/2023祝贺！硕士研究生（三年级）黄琦为第一作者的论文“Economical generation of high-quality optical vortices with gradual-width Fermat spiral slit mask”在SCIENCE CHINA Physics, Mechanics & Astronomy(一区)上发表（Sci. China-Phys. Mech. Astron. 66, 244211, 2023）。本工作中，我们提出了一种产生方法非常经济、光束质量非常高的涡旋光束，只要你手头有激光打印机就可以制作该片子，成本低至几分钱。感谢上海理工大学国家特聘教授詹其文教授、电子科技大学杨元杰教授的合作，特别感谢深圳大学长江学者袁小聪教授为本工作点评！3/2023祝贺！硕士研究生（二年级）朱俊安为第一作者的论文“Coherence singularity and evolution of partially coherent Bessel-Gaussian vortex beams”在Optics Express上发表（Opt. Expreess 31, 9308--9318, 2023）11/2022 赵承良教授获江苏省物理学会教育贡献奖11/2022 祝贺！卢兴园博士后获批中国博士后科学基金第72批面上资助二等：基于叠层相干衍射成像技术的部分相干光场的模式重构及应用研究（资助编号：2022M722325，执行期：2023.01-2024.10）08/2022 祝贺！卢兴园博士后获批国家自然科学基金（青年上项目）：基于电场模式重建的部分相干分数阶涡旋光束测量及应用研究（基金号：12204340，执行期：2023.01-2025.12）7/2022祝贺！博士研究生张浩为第一作者的论文“Statistical properties of a partially coherent vector beam with controllable spatial coherence, vortex phase, and polarization”在Optics Express上发表（Opt. Expreess 30, 29923-29939, 2022）06/2022 祝贺！卢兴园博士后获2022年度江苏省卓越博士后计划资助：部分相干光空间模式测量及通信复用技术研究（资助编号：2022ZB593，执行期：2022.10-2024.10）06/2022赵承良教授获2021年度“典赞·科普苏州”年度科普人物05/2022祝贺！ 20120级物理学班的卢潇锬同学获批苏州大学2022年“䇹政基金”项目——指导老师：卢兴园（Congratulation to Mr. Xiaotan LU on winning the Hui-Chun Chin and Tsun-Dao Lee Chinese Undergraduate Research Endowment (CURE)）04/2022 祝贺！受《量子电子学报》邀请，我们组以硕士生王卓异为第一作者的综述论文“涡旋光场相干调控及拓扑荷测量”正式发表，其他作者还有曾军博士（山师大讲师）、张浩（苏大在读博士）、卢兴园（苏大在站博士后），赵承良教授和蔡阳健教授为共同通讯作者。01/2022祝贺！博士研究生张浩为第一作者的综述论文“Review on Fractional vortex beam”在线发表在Nanophotonics(doi.org/10.1515/nanoph-2021-0616, 11(2),241-273,2022)，该论文是受Nanophotonics编辑Dennis Couwengerg邀请撰写的，其他作者还有曾军博士（山师大讲师）、卢兴园（在站博士后）和王卓异（硕士生），赵承良教授和蔡阳健教授为共同通讯作者，该论文系统综述了分数阶涡旋光束的理论模型、产生、传输、测量和应用。已被引16次(截止2022.08.28)12/2021赵承良教授获江苏省光学学会青年光学科技奖26/11/2021祝贺！赵承良教授和卢兴园博士后联合指导的2020级本科生林琪栋、卢潇锬获第18届江苏省高校大学生物理与实验科技作品创新竞赛一等奖！！参赛作品名称：基于相位成像的肿瘤细胞快速诊断相位显微镜23/11/2021祝贺！博士研究生张浩为第一作者的“Generation and Propagation of Partially Coherent Power-Exponent-Phase Vortex Beam”正式发表在Frontier In Physics上“Front. In Phys.9,781688 (2021); doi: 10.3389/fphy.2021.781688”.09/2021欢迎赵雪纯博士生、朱俊安硕士生加入大家庭14/09/2021祝贺！硕士研究生王卓异同学为第一作者的“Measuring the complete complex correlation matrix of a partially coherent vector beam via self-referencing holography”正式发表在Applied Physics Letters上“Appl. Phys. Lett. 119, 111101 (2021); https://doi.org/10.1063/5.0061838”，并被选为Editor's Picks.08/2021赵承良教授获批国家自然科学基金（面上项目）：特殊相干结构部分相干光在相干衍射成像中的应用（基金号：12174280，执行期：2022.01-2025.12）05/2021 赵承良教授被评为苏州大学纪念建校120周年活动先进个人04/2021 祝贺！ 2019级物理师范班的杭奕亦同学获批苏州大学2021年“䇹政基金”项目——指导老师：赵承良（Congratulation to Mr. Yiyi HANG on winning the Hui-Chun Chin and Tsun-Dao Lee Chinese Undergraduate Research Endowment (CURE)）03/2021 赵承良教授被评为2020年度中国激光杂志社优秀审稿人03/2021 赵承良教授获批苏州市科普项目：党建+科普：“大手拉小手 科学零距离”（基金号：2021KPHD-12，执行期：2021.01-2021.12）01/2021 祝贺！ 刘淼同学获苏州大学第二十一届“苏大天宫杯”“挑战杯”大学生课外学术科技作品三等奖01/2021 赵承良教授被评为《光学学报》创刊40周年20位优秀审稿人之一11/2020 赵承良教授被评为苏州大学“兴育新”宣传思想政治工作奖09/2020 欢迎张浩博士生、黄琦硕士生加入大家庭05/2020 赵承良教授获批苏州大学“唐仲英青年学者”04/2020 赵承良教授被评为2019年度中国激光杂志社优秀审稿人05/2019 祝贺！ 卢兴园博士生、曾军博士生获批国家留学基金委资助，卢兴园博士生赴加州大学洛杉矶分校（UCLA）国际相干衍射成像权威专家Jianwei Miao教授课题组作2年的联合培养，曾军博士生赴北卡罗莱纳州立大学夏洛特分校国际知名奇点光学专家Greg Gbur教授组作1年的联合培养。03/2019 赵承良教授被评为2018年度中国激光杂志社优秀审稿人PUBLICATIONSAcademic References/学术论文【2024】1.Zhuoyi Wang, Xingyuan Lu*, Jianbao Gao, Xuechun Zhao, Qiwen Zhan, Yangjian Cai* and Chengliang Zhao*, Coherence phase spectrum analyzer for randomly fluctuated fractional vortex beam. Photonics Research 12(1), 33-39 (2024) 2.Hao Zhang, Junan Zhu, Xingyuan Lu*, Zhiquan Hu, Jianbo Gao, Kun Liu, Qiwen Zhan*, Yangjian Cai* and ChengLiang Zhao*, Single-shot phase retrieval for randomly fluctuated and obstructed vortex beams. Science China Physics, Mechanics & Astronomy67(4), 244211 (2024) (https://doi.org/10.1007/s11433-023-2290-8)【2023】3.Xuechun Zhao, Zhuoyi Wang, Xingyuan Lu, Hao Zhang, Junan Zhu, Jianbo Gao, Qiwen Zhan*, Yangjian Cai* and Chengliang Zhao*, Ultrahigh Presion Angular Velocity Measurement using Frequency Shift of Partially Coherent Beams. Laser & Photonics Review, 17, 2300318 (2023)4.Xingyuan Lu#, Zhuoyi Wang#, Chengliang Zhao*, Qiwen Zhan* and Yangjian Cai*, Four-dimensional experimental characterization of partially coherent light using incoherent modal decomposition. Nanophotonics, 12(17), 3463-3470 (2023)https://doi.org/10.1515/nanoph-2023-02885.Qi Huang‡, Xingyuan Lu‡, Hao Zhang, Zhuoyi Wang, Yuanjie Yang, Qiwen Zhan*, Yangjian Cai*, Chengliang Zhao*, Economical generation of high-quality optical vortices with gradual-width Fermat spiral slit mask. Science China Physics, Mechanics & Astronomy 66 (4), 1-9 (2023)6.Junan Zhu, Hao Zhang, Zhiquan Hu, Xingyuan Lu*, Qiwen Zhan, Yangjian Cai* and Chengliang Zhao*. Coherence modulation for anti-turbulence deep learning recognition of vortex beam. Applied Physics Letters 123, 091105 (2023)7.Junan Zhu, Hao Zhang, Zhuoyi Wang, Xuechun Zhao, Xingyuan Lu*, Yangjian Cai*, Chengliang Zhao*, Coherence singularity and evolution of partially coherent Bessel–Gaussian vortex beams. Optics Express 31 (6), 9308-9318 (2023)8.Xiaotan Lu, Zhuoyi Wang, Xingyuan Lu*, Chengliang Zhao and Yangjian Cai, Topological Charge Measurement of a Partially Coherent Vortex Beam Using Dual Cylindrical Lenses with an Arbitrary Angle. Photonics 10, 444 (2023)9.Qidong Lin, Hao Zhang, Zhiquan Hu, Xiaotan Lu, Xingyuan Lu*, Yangjian Cai and Chengliang Zhao *. Airy Transform of the New Power-Exponent-Phase Vortex Beam. Photonics 10(9), 974 (2023) https://doi.org/10.3390/photonics10090974【2022】10.Hao Zhang, Haiyun Wang, Xingyuan Lu*, Xuechun Wang, Bernhard J Hoenders, Chengliang Zhao*, Yangjian Cai*, Statistical properties of a partially coherent vector beam with controllable spatial coherence, vortex phase, and polarization. Optics Express, 30(17) 29923-29939 (2022).11.王卓异、曾军、张浩、卢兴园、赵承良*、蔡阳健*，涡旋光场相干调控及拓扑荷测量，量子电子学报，29(2), 225-250（2022）.12.Hao Zhang, Jun Zeng, Xingyuan Lu, Zhuoyi Wang, Chengliang Zhao* and Yangjian Cai*, Review on fractional vortex beam. Nanophotonics, 11(2), 241-273 (2022).【2021】13.Hao Zhang, Xingyuan Lu, Zhuoyi Wang, A. P. Konijnenberg, Haiyun Wang, Chengliang Zhao* and Yangjian Cai*, Generation and Propagation of Partially Coherent Power-Exponent-Phase Vortex Beam. Frontier In Physics 9, 781688 (2021).14.Zhuoyi Wang, Xingyuan Lu*, Wenrui Huang, A. P. Konijnenberg, Hao Zhang, Chengliang Zhao*, and Yangjian Cai*, Measuring the complete complex correlation matrix of a partially coherent vector beam via self-referencing holography. Applied Physics Letters119, 111101 (2021); https://doi.org/10.1063/5.0061838. Editor’s Picks15.Miao Dong, Chengliang Zhao, Yangjian Cai, Yuanjie Yang*, Partially coherent vortex beams: Fundamentals and applications, SCIENCE CHINA Physics, Mechanics & Astronomy64 (2), 1-19 (2021).16.Xingyuan Lu, Zhuoyi Wang, S Zhang, AP Konijnenberg, Yiqin Ouyang*, Chengliang Zhao*, Yangjian Cai*, Microscopic phase reconstruction of cervical exfoliated cell under partially coherent illumination. Journal of Biophotonics14 (1), e202000401 (2021).【2020】17.Jun Zeng, Hao Zhang, Zhiheng Xu, Chengliang Zhao*, Yangjian Cai*, Greg Gbur*, Anomalous multi-ramp fractional vortex beams with arbitrary topological charge jumps. Applied Physics Letters117 (24), 241103 (2020).18.Tianchi Chen, Xingyuan Lu, Jun Zeng, Zhuoyi Wang, Hao Zhang, Chengliang Zhao*, Bernhard J Hoenders, Yangjian Cai*, Young’s double-slit experiment with a partially coherent vortex beam. Optics Express28 (25), 38106-38114 (2020).19.卢兴园，赵承良，蔡阳健. 部分相干照明下的相位恢复方法及应用研究进展. 中国激光47 (5), 0500016 (2020).20.Jun Zeng, Chunhao Liang, Haiyun Wang, Fei Wang, Chengliang Zhao*, Greg Gbur, Yangjian Cai*, Partially coherent radially polarized fractional vortex beam. Optics Express 28 (8), 11493-11513 (2020).【2019】21.Jun Zeng, Xianlong Liu, Chengliang Zhao*, Fei Wang*, Greg Gbur, Yangjian Cai*, Spiral spectrum of a Laguerre-Gaussian beam propagating in anisotropic non-Kolmogorov turbulent atmosphere along horizontal path. Optics Express27 (18), 25342-25356 (2019).22.Jun Zeng, Rong Lin, Xianlong Liu, Chengliang Zhao, Yangjian Cai*, Review on partially coherent vortex beams. Frontiers of Optoelectronics12 (3), 229-248 (2019)23.Jun Zeng, Xingyuan Lu, Leixin Liu, Xinlei Zhu, Chengliang Zhao*, Yangjian Cai*, Simultaneous measurement of the radial and azimuthal mode indices of a higher-order partially coherent vortex beam based on phase detection. Optics Letters44 (15), 3881-3884 (2019).24.Xingyuan Lu, Chengliang Zhao*, Yifeng Shao, Jun Zeng, Sander Konijnenberg, Xinlei Zhu, Sergei Popov, H Paul Urbach, Yangjian Cai*, Phase detection of coherence singularities and determination of the topological charge of a partially coherent vortex beam. Applied Physics Letters114 (20), 201106 (2019).25.Xinlei Zhu, Fei Wang*, Chengliang Zhao, Yangjian Cai*, Sergey A Ponomarenko, Experimental realization of dark and antidark diffraction-free beams. Optics Letters44 (9), 2260-2263 (2019).26.Xingyuan Lu, Chengliang Zhao, Bernhard J Hoenders, Yuanjie Yang, Yangjian Cai, Experimental study of an anomalous hollow beam with orbital angular momentum. Optica Applicata49 (2) (2019).27.Xingyuan Lu, Yifeng Shao, Chengliang Zhao*, Sander Konijnenberg, Xinlei Zhu, Ying Tang, Yangjian Cai, H Paul Urbach, Noniterative spatially partially coherent diffractive imaging using pinhole array mask. Advanced Photonics1 (1), 016005 (2019).28.Xiaofeng Peng, Xingyuan Lu, Xianlong Liu, Chengliang Zhao, Rong Lin, Lin Liu*, Yangjian Cai*, Generation and propagation of a Hermite-Gaussian correlated Schell-Modle LG0l beam, Applied Science, 9, 610 (2019).【2018】29.Miao Dong#, Xingyuan Lu#, Chengliang Zhao*, Yangjian Cai, Yuanjie Yang*, Measuring topological charge of partially coherent elegant Laguerre-Gaussian beam, Optics Express26 (25), 33035-33043 (2018).30.Jun Zeng, Xianlong Liu, Fei Wang, Chengliang Zhao*, Yangjian Cai*, Partially coherent fractional vortex beam. Optics Express26 (21), 26830-26844 (2018).31.Xinlei Zhu, Kuilong Wang, Fei Wang, Chengliang Zhao*, Yangjian Cai, Coupling efficiency of a partially coherent radially polarized vortex beam into a single-mode fiber. Applied Sciences8 (8), 1313 (2018).32.AP Konijnenberg*, Xingyuan Lu, Leixin Liu, WMJ Coene, Chengliang Zhao*, HP Urbach, Non-iterative method for phase retrieval and coherence characterization by focus variation using a fixed star-shaped mask. Optics Express26 (7), 9332-9343 (2018).33.Yuanjie Yang, Xinlei Zhu, Jun Zeng, Xingyuan Lu, Chengliang Zhao*, Yangjian Cai*, Anomalous Bessel vortex beam: modulating orbital angular momentum with propagation. Nanophotonics7 (3), 677-682 (2018).34.Yifeng Shao, Xingyuan Lu, Sander Konijnenberg, Chengliang Zhao*, Yangjian Cai, H Paul Urbach, Spatial coherence measurement and partially coherent diffractive imaging using self-referencing holography. Optics Express26 (4), 4479-4490 (2018).35.赵承良，卢兴园，李成金, 基于惠更斯—菲涅耳原理激光传输特性的空间相干性分析. 物理教师, 39(11), 93-97 (2018).【2017】36.Xinlei Zhu, Xingyuan Lu, Kuilong Wang, Chengliang Zhao*, Bernhard J Hoenders, Yangjian Cai, Nonparaxial propagation properties of an anomalous hollow beam with orbital angular momentum. Journal of Modern Optics64 (19), 1960-1970 (2017)37.Xianlong Liu, Xiaofeng Peng, Lin Liu, Gaofeng Wu, Chengliang Zhao*, Fei Wang*, Yangjian Cai*, Self-reconstruction of the degree of coherence of a partially coherent vortex beam obstructed by an opaque obstacle, Applied Physics Letters110 (18), 181104 (2017).38.Chunhao Liang, Cunkun Mi, Fei Wang, Chengliang Zhao*, Yangjian Cai*, Sergey A. Ponomarenko*, Vector optical coherence lattices generating controllable far-field beam profiles, Optice Express 25 (9), 9872-9885 (2017).39.Xianlong Liu, Tengfei Wu, Lin Liu, Chengliang Zhao, Yangjian Cai, Experimental determination of the azimuthal and radial mode orders of a partially coherent LGpl beam, Chinese Optics Letters 15 (3), 030002 (2017).40.许瀚尹，赵承良，李成金, 一个关于劈尖干涉模糊不清的问题. 物理与工程, 27(1), 71-72 (2017)【2016】41.Xingyuan Lu, Xinlei Zhu, Kuilong Wang, Chengliang Zhao*, Yangjian Cai, Effects of biological tissues on the propagation properties of anomalous hollow beams, Optik127 (4), 1842-1847 (2016).42.Xingyuan Lu, Yan Shen, Xinlei Zhu, Chengliang Zhao*, Yangjian Cai*, Evolution properties of multi-Gaussian Schell model beams propagating in uniaxial crystal orthogonal to the optical axis, Optica Applicata46 (1) (2016).【2015】43.Xianlong Liu, Fei Wang, Lin Liu, Chengliang Zhao, Yangjian Cai*, Generation and propagation of an electromagnetic Gaussian Schell-model vortex beam, Journal of Optics Society American A, 32(11), 2058-2065 (2015).44.Chenchen Zhao, Xin. Wang, Chengliaing Zhao*, Kuilong Wang, Yangjian Cai, Statistical properties of an anomalous hollow beam with orbital angular momentum, Journal of Modern Optics (3), 179-185 (2015).45.Kuilong Wang, Chengliang Zhao*, Nonparaxial propagation of a vectorial aperture off-axis anomalous hollow beam, Optics Communications. 334, 280-286 (2015).46.Yuan Dong, Chenchen Zhao, Chengliang Zhao*, Yangjian Cai, Focusing properties of partially coherent dark hollow Gaussian beams though a thin lens system, Optica Applicata, 45(2), 151-161 (2015).47.吴彩燕，李成金，赵承良, 神秘的超级电容器. 物理通报9, 117-119 (2015).【2014】48.Chunhao Liang, Chenchen Zhao, Chengliang Zhao*, Kuilong Wang, Yangjian Cai, Degree of polarization of a tightly focused, partially coherent anomalous hollow beam, Journal of Optics Society American A, 31 (12), 2753-2758, (2014).49.Fei Wang, Chengliang Zhao, Yuan Dong, Yiming Dong, Yangjian Cai*, Generation and tight-focusing properties of cylindrical vector circular Airy beams, Applied Physics B, 117 (3), 905-913, (2014).50.Yahong Chen, Lin Liu, Fei Wang, Chengliang Zhao, Yangjian Cai*, Elliptical Laguerre-Gaussian correlated Schell-model beam, Opt. Express22 (11), 13975-13987 (2014).51.Xin Wang, Xingyuan Lu, Chenchen Zhao, Kuilong Wang, Chengliang Zhao*, Yangjian Cai, Propagation properties of partially coherent anomalous hollow beams in uniaxial crystals, Journal ofModern Optics61 (8), 688-696 (2014).52.Kuilong Wang, Chengliang Zhao*, Propagation properties of a radial phased-locked partially coherent anomalous hollow beam array in turbulent atmosphere, Optics & Laser Technology57 44-51 (2014).53.Yahong Chen, Fei Wang, Chengliang Zhao, Yangjian Cai*, Experimental demonstration of a Laguerre-Gaussian correlated Schell-model vortex beam, Opt. Express22 (5), 5826-5838 (2014).54.Wei Wen, Xingyuan Lu, Chengliang Zhao*, Yangjian Cai*, Propagation of Airy beam passing through the misaligned optical system with hard aperture, Optics Communications313, 350–355 (2014).55.Yangjie Yang*, Yuan Dong, Chengliaing Zhao*, Yidong Liu, Yangjian Cai, Autocorrelation properties of fully coherent beam with and without orbital angular momentum, Optics Express,22 (3), 2925-2932 (2014).56.Yahong Chen, Fei Wang*, Lin Liu, Chengliang Zhao, Yangjian Cai*, Olga Korotkova, Generation and propagation of a partially coherent vector beam with special correlation functions, Physics Review A, 89 (1), 013801 (2014).57.Yongtao Zhang, Lin Liu, Chengliang Zhao, Yangjian Cai*, Multi-Gaussian Schell-model vortex beam, Physics Letter A378 (9), 750-754 (2014).58.Yan Shen, Lin Liu, Chengliang Zhao, Yangsheng Yuan, Yangjian Cai*, Second-order moments of an electromagnetic Gaussian Schell-model beam in a uniaxial crystal, Journal of Optics Society American A,31, 238-245 (2014).【2013】59.Yangjie Yuan, Yuan Dong, Chengliang Zhao*, Yangjian Cai*, Generation and propagation of an anomalous vortex beam, Optics Letters 38 (24), 5418-5421 (2013).60.Shijun Zhu, Chengliang Zhao, Yahong Chen, Yangjian Cai*, Experimental generation of a polychromatic partially coherent dark hollow beam, Optik, 124, 5271– 5273 (2013).61.Yangsheng Yuan, Shengcai Du, Yiming Dong, Chengliang Zhao, Yangjian Cai, Nonparaxial propagation properties of a vector partially coherent dark hollow beam, Journal Optics Society American A, 30, 1358-1372 (2013).【2012】62.Chengliang Zhao, Fei Wang, Yuan Dong, Yujing Han, Yangjian Cai*, Effect of spatial coherence on determining the topological charge of a vortex beam, Applied Physics Letters101, 261104 (2012).63.Chengliang Zhao, Yuan Dong, Yiming Wang, Fei Wang, Yongtao Zhang, Yangjian Cai*, Experimental generation of a partially coherent Laguerre-Gaussian beam, Applied Physics B109 (2), 345-349 (2012).64.Chengliang Zhao, Yuan Dong, Gaofeng Wu, Fei Wang, Yangjian Cai*, Olga Korotkova, Experimental demonstration of coupling of an electromagnetic Gaussian Schell-model beam into a single-mode optical fiber, Applied Physics B, 108 (4), 891-895 (2012).65.Chengliang Zhao, Yangjian Cai*, Focusing properties of a general-type beam in turbulent atmosphere, Optics & Laser Technology44 (6), 1850-1857 (2012).66.Yiming Dong, Fei Wang, Chengliang Zhao, Yangjian Cai*, Effect of spatial coherence on propagation, tight focusing, and radiation force of an azimuthally polarized beam, Physics Review A86, 013840 (2012).67.Yiming Dong, Fei Feng, Yahong Chen, Chengliang Zhao, Yangjian Cai*, Statistical properties of a nonparaxial cylindrical vector partially coherent field in free space. Optics Express20 (14), 15908-15927 (2012).68.Kuilong Wang, Chengliang Zhao*, Analytical solution for an anomalous hollow beam in a fractional Fourier transforming optical system with a hard aperture, Optics & Laser Technology44 (5), 1232-1239 (2012).69.Kuilong Wang, Chengliang Zhao*, Xuanhui Lu, Nonparaxial propagation properties for a partially coherent anomalous hollow bam, Optik123 (3), 202-207 (2012).【2011】70.Yiming Dong, Yangjian Cai*, Chengliang Zhao, Degree of polarization of a tightly focused partially coherent dark hollow beam, Applied Physics B105 (2), 405-414 (2011).71.Chengliang Zhao, Yangjian Cai, Trapping two types of particles using a focused partially coherent elegant Laguerre-Gaussian beam, Optics Letters36 (12), 2251-2253 (2011).72.Chengliang Zhao, Yangjian Cai*, Propagation of partially coherent Lorentz and Lorentz-Gauss beams through a paraxial ABCD optical system in a turbulent atmosphere, Journal Modern Optics58 (9), 810-818 (2011).73.Yiming Dong, Yangjian Cai*, Chengliang Zhao, Min Yao, Statistics properties of a cylindrical vector partially coherent beam, Optics Express19 (7), 5979-5992 (2011).74.Wen Du, Chengliang Zhao, Yangjian Cai*, Propagation of Lorentz and Lorentz-Gauss beams through an apertured fractional Fourier transform optical system, Optics & Lasers In Engineering.49 (1), 25-31 (2011).【2010】75.Chengliang Zhao, Yangjian Cai*, Propagation of a general-type beam through apertured aligned and misaligned ABCD optical system, Applied Physics B101 (4), 891-900, (2010).76.Kuilong Wang, Chengliang Zhao*, Bijun Xu, Propagation of anomalous hollow beam through a misaligned first-order optical system, Optics & Laser Technology42 (8), 1218-1222 (2010).77.Yangsheng Yuan, Chengliang Zhao, Yangjian Cai*, Propagation factors of laser array beams in turbulent atmosphere, Journal Modern Optics57 (8), 621-631 (2010).78.Chengliang Zhao, Yangjian Cai*, Paraxial propagation of Lorentz and Lorent-Gauss beams in uniaxial crystal orthogonal to the optical axis, Journal Modern Optics57 (5), 375-384 (2010).79.蒋云峰，陆璇辉，赵承良, 高度聚焦的余弦高斯光束对瑞利粒子的辐射力分析, 物理学报 59 (6), 3959-3964 (2010).80.Chengliang Zhao, Kaikai Huang, Xuanhui Lu*, Propagation properties of Bessel and Bessel-Gaussian beams in a fractional Fourier transform optical system, Optics & Laser Technology 42 (2), 280-284 (2010).81.Chengliang Zhao, Yangjian Cai*, Propagation of a general-type beam through a truncated fractional Fourier transform optical system, Journal Optics Society American A27 (3), 637-647 (2010).【2009】82.Kuilong Wang, Chengliang Zhao*, Fractional Fourier transform for an anomalous hollow beam. Journal of Optics Society American A26, 2571-2576 (2009).83.Chengliang Zhao, Yangjian Cai*, Olga Korotkova, Radiation force of scalar and electromagnetic twisted Gaussian Schell-model beams, Optics Express17 (24), 21472-21487 (2009).84.Chengliang Zhao, Yangjian Cai*, Xuanhui Lu, and Halil T. Eyyuboglu, Radiation force of coherent and partailly coherent flat-topped beams on a Rayleigh paritlce, Optics Express17 (3), 1753-1765 (2009).85.Bijun Xu, Chengliang Zhao*, and Kuilong Wang, Propagation of anomalous hollow beams through a circular-apertured optical system. Journal Modern Optics56, 1681-1687 (2009). 86.He Chen, Junliang Lu, C. Zhao, Botao Chen, Xuanhui Lu*, Study of mode propagation with 632.8-nm laser in tapered fiber. Chinese Optics Letters 771-774 (2009).87.陆璇辉，刘玉娜，赵承良不同激光光束对微粒辐射力作用的研究与比较, 激光与光电子学进展46 (6), 19-23 (2009).【2008】88.Chengliang Zhao, Yangjian Cai, Fei Wang, Xuanhui Lu*, Yuzhu Wang, Generation of a high-quality partially coherent dark hollow beam with a multimode fiber, Optics Letters33 (12), 1389-1391 (2008).89.Chengliang Zhao, Ligang Wang*, Propagation of high-order Bessel-Gaussian beams through a hard-aperture misaligned optical system. Journal of Modern Optics55, 2269-2277 (2008).90.Chengliang Zhao, Xuanhui Lu*, and He Chen, Study of Dark-Hollow Beams Generated with Different Multimode Fibres.Chinese Physics Letters25, 1678-1679 (2008). 91.Chengliang Zhao, Ligang Wang, and Xuanhui. Lu, Focal shift of hollow Gaussian beams through a thin lens. Optics & Laser Technology 40, 58-63 (2008). 92.Chengliang Zhao, Ligang Wang, Xuanhui Lu, and He Chen, Hollow elliptical Gaussian beams generated by a triangular prism.Optics & Laser Technology 40, 575-580 (2008). 93.Chengliang Zhao, Ligang Wang, and Xuanhui Lu, Radiation forces of highly focused Bessel-Gaussian beams on a dielectric sphere. Optik 119, 477–480 (2008).94.李汝烯，张学清，赵承良，陆璇辉，空心高斯光束通过圆环形硬边光阑的传输特性，激光与红外38 (6), 573-575 （2008）95.陆璇辉，黄慧琴，赵承良，王将峰，陈和，涡旋光束和光学涡旋，激光与光电子学进展45 (1), 50-56 （2008）【2007】96.Chengliang Zhao, Ligang Wang, Xuanhui Lu*, and He Chen, Propagation of high-order Bessel-Gaussian beam through a misaligned first-order optical system, Optics & Laser Technology39, 1199-1203 (2007). 97.Ligang Wang*, Chengliang Zhao, Dynamic radiation force of a pulsed Gaussian beam acting on a Rayleigh dielectric sphere, Optics Express15 (17), 1676-1679 (2007).98.Ligang Wang*, Chengliang Zhao, Effect of spatial coherence on radiation forces acting on a Rayleigh dielectric sphere, Optics Letters 32 (11), 1393-1395 (2007).99.Chengliang Zhao, Ligang Wang, and Xuanhui Lu*, Radiation forces on a dielectric sphere produced by highly focused hollow Gaussian beams. Physics Letters A363, 502-506 (2007).100.Chengliang Zhao, and Xuanhui Lu*, Propagation of hollow Gaussian beam through a misaligned first-order optical system and its propagation properties. Optik 118, 266-270 (2007).101.李汝烯，李汝恒，赵承良，陆璇辉, 高阶贝塞尔-高斯光束通过圆环形硬边光阑的传输特性, 激光与紅外, 37 (6), 534-536 (2007).102.陆璇辉，陈和，赵承良,涡旋光束和光学涡旋的研究, 红外与激光工程 1 (2007)【2006】103.Chengliang Zhao, Ligang Wang, Xuanhui Lu, and Y. Wang, Propagation effect of hollow Gaussian beams passing through a misaligned optical system, Chinese Physics Letters23, 2411-2414 (2006).104.李汝烯，赵承良，陆璇辉, 高斯光束通过圆锥棱镜光学系统的传输特性, 激光與紅外 36 (6), 475-479 (2006).105.赵承良，陆璇辉, 高阶贝塞尔-高斯光束通过一阶失调光学系统的传输, 激光与红外 36 (001), 58-60 (2006)106.程波涛，袁波江，陈和，赵承良，陆璇辉, 利用锥型光纤实现多模到单模转换实验, 光学仪器 28 (3), 34 (2006).Book Chapter/英文章节107.Yangjian Cai, Fei Wang, Chengliang Zhao, Shijun Zhu, Gaofeng Wu, Yiming Dong, CHAPTER 7: Partially coherent vector beams: from theory to experiment, Vectorial Optical Fields: Fundamentals and Applications 7, 221-273 (2013)Coference References/会议论文108.Jun Zeng, Yuanjie Yang, Chengliang Zhao, Yangjian Cai, Generation and Propagation of Anomalous Bessel Vortex Beam. 2018 Conference on Lasers and Electro-Optics Pacific Rim (CLEO-PR), 1-2 (2018).109.Chengliang Zhao, Yangjian Cai, Yangsheng Yuan, Propagation factor of a radial laser array beam in turbulent atmosphere, Atmospheric and Oceanic Propagation of Electromagnetic Waves IV 7588, 75880O (2010).110.Yuna Liu, Xuanhui Lu, Chengliang Zhao, Radiation forces of anomalous hollow beams on a Rayleigh particle, 2009 International Conference on Optical Instruments and Technology: Optical Trapping and Microscopic Imaging (2009).111.Chengliang Zhao, Yangjian Cai, Xuanhui Lu, Twist phase induced changes of radiation force of a Gaussian Schell-model beam on a Rayleigh dielectric sphere (2009).112.He Chen, Chengliang Zhao, Xuanhui Lu, Yangjian Cai, Generation of a high-quality partially coherent dark hollow beam with a multimode fiber, 2008 IEEE PhotonicsGlobal@ Singapore, 1-4 (2008)113.赵承良，王立刚，陆璇辉，高聚焦空心光束对介质小球产生的辐射力，中国光学学会 2006 年学术大会论文摘要集，（2006）114.赵承良，陆璇辉，高阶 Bessel-Gaussian 光束通过一阶失调光学系统的传输，浙江省光学学会第九届学术年会暨新型光电技术青年论坛论文集，（2005）