Light: Advanced Manufacturing
第 5卷 第 2 期 正式出版
「封面解读」基于超薄金属银膜的纳米复合结构赋能下一代透明微波天线和无线通信:华中科技大学、伊利诺伊大学芝加哥分校和密歇根大学的研究团队合作展示了一种基于超薄金属银膜的柔性纳米复合结构,并利用该结构成功构建了多种高性能的光学透明微波天线。此项研究有效解决了传统透明微波天线材料难以兼具高电导率和高透光性的难题,有望推动光学透明微波天线在可穿戴无线电子设备、第五代通信、智慧城市、物联网等新兴领域的广泛应用。
「期刊介绍」Light: Advanced Manufacturing (以下简称LAM) (https://www.light-am.com/)由918博天娱乐官网主办,中国科学院长春光学精密机械与物理研究所Light学术出版中心出版,是Nature旗下领军期刊Light: Science & Applications的衍生姊妹刊,于2021年1月正式发表研究型论文,为开源的国际化期刊,中国科技期刊卓越行动计划高起点新刊,入选广东省高水平英文科技期刊创办项目1项,广东省科技期刊优秀人才项目2项,收录于Scopus(首个CiteScore 10.9)、DOAJ、Google Scholar、CNKI(英文),2022-2024连续三年入选北京国际图书博览会(BIBF)”中国精品期刊展”。该刊特色为Light品牌自主办刊与先进技术相结合(知识产权完全自有),旨在出版先进制造领域前沿成果,致力于服务科研与产业工作者。
内 容 概 览
本期共发表 12 篇原创论文(Article),作者来自全球 5 个国家:中国,德国,美国,希腊,芬兰。
Motion-copying method with symbol sequence-based phase switch control for intelligent optical manufacturing
中国科学院长春光学精密机械与物理研究所、动态光学成像与测量全国重点实验室田大鹏研究员团队
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运动复制:高一致性与适应性的操作技能学习与再现
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https://doi.org/10.37188/lam.2024.012
「相关论文信息」Yutang Wang, Dapeng Tian, Haixiang Hu, Yan Li, Shiquan Ni. Motion-copying method with symbol sequence-based phase switch control for intelligent optical manufacturing[J]. Light: Advanced Manufacturing 5, 12(2024). doi: 10.37188/lam.2024.012
All-silicon low-loss THz temporal differentiator based on microring waveguide resonator platform(太赫兹微分器:一种低损耗的片上太赫兹信号处理模块)
南京大学吴培亨院士团队
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https://doi.org/10.37188/lam.2024.017
「相关论文信息」Yunjie Rui, Shuyu Zhou, Xuecou Tu, Xu Yan, Bingnan Yan, Chen Zhang, Ziyao Ye, Huilin Zhang, Jingya Xie, Qing-Yuan Zhao, La-Bao Zhang, Xiao-Qing Jia, Huabing Wang, Lin Kang, Jian Chen, Peiheng Wu. All-silicon low-loss THz temporal differentiator based on microring waveguide resonator platform[J]. Light: Advanced Manufacturing 5, 17(2024). doi: 10.37188/lam.2024.017
Differential mode-gain equalization via femtosecond laser micromachining-induced refractive index tailoring
广东工业大学秦玉文教授团队
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飞秒激光微加工:助力少模光纤模式信道功率均衡
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https://doi.org/10.37188/lam.2024.014
「相关论文信息」Cong Zhang, Senyu Zhang, Yan Zeng, Yue Wang, Meng Xiang, Di Lin, Songnian Fu, Yuwen Qin. Differential mode-gain equalization via femtosecond laser micromachining-induced refractive index tailoring[J]. Light: Advanced Manufacturing 5, 14(2024). doi: 10.37188/lam.2024.014
Breaking the speed limitation of wavemeter through spectra-space-time mapping
华中科技大学光电学院唐明教授团队
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光谱-空间-时间映射:开启光谱测量的超高速时代
② 阅读论文原文▼
https://doi.org/10.37188/lam.2024.013
「相关论文信息」Zheng Gao, Ting Jiang, Mingming Zhang, Yuxuan Xiong, Hao Wu, Ming Tang. Breaking the speed limitation of wavemeter through spectra-space-time mapping[J]. Light: Advanced Manufacturing 4, 13(2024). doi: 10.37188/lam.2024.013
Accuracy verification methodology for computer-generated hologram used for testing a 3.5-meter mirror based on an equivalent element
中国科学院长春光学精密机械与物理研究所光学系统先进制造重点实验室张学军院士团队
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超大口径非球面反射镜CGH检测精度校验方法
② 阅读论文原文▼
https://doi.org/10.37188/lam.2024.025
「相关论文信息」Kai Xu, Haixiang Hu, Xin Zhang, Hongda Wei, Zhiyu Zhang, Xuejun Zhang. Accuracy verification methodology for computer-generated hologram used for testing a 3.5-meter mirror based on an equivalent element[J]. Light: Advanced Manufacturing 5, 25(2024). doi: 10.37188/lam.2024.025
3D micro-devices for enhancing the lateral resolution in optical microscopy
希腊研究和技术基金会-电子结构与激光研究所的Gordon Zyla团队
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激光3D打印微器件:提升光学显微分辨率的新技术
② 阅读论文原文▼
https://doi.org/10.37188/lam.2024.019
「相关论文信息」Gordon Zyla, Göran Maconi, Anton Nolvi, Jan Marx, Dimitra Ladika, Ari Salmi, Vasileia Melissinaki, Ivan Kassamakov, Maria Farsari. 3D micro-devices for enhancing the lateral resolution in optical microscopy[J]. Light: Advanced Manufacturing 5, 19(2024). doi:10.37188/lam.2024.019
Single-shot 3D incoherent imaging with diffuser endoscopy
德国德累斯顿工业大学的Robert Kuschmierz与Tom Glosemeyer团队
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散射器内窥镜:单次曝光实时3D成像
② 阅读论文原文▼
https://doi.org/10.37188/lam.2024.015
「相关论文信息」Julian Lich, Tom Glosemeyer, Jürgen Czarske, Robert Kuschmierz. Single-shot 3D incoherent imaging with diffuser endoscopy[J]. Light: Advanced Manufacturing 5, 15(2024). doi: 10.37188/lam.2024.015
Laser speckle grayscale lithography: a new tool for fabricating highly sensitive flexible capacitive pressure sensors
山西大学量子光学与光量子器件国家重点实验室仝召民团队
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激光散斑灰度光刻:制造高灵敏度柔性电容式压力传感器的新手段
② 阅读论文原文▼
https://doi.org/10.37188/lam.2024.016
「相关论文信息」Yong Zhou, Kun Wang, Junkun Mao, Yifei Ma, Mei Wang, Suotang Jia, Xuyuan Chen, Zhaomin Tong. Laser speckle grayscale lithography: a new tool for fabricating highly sensitive flexible capacitive pressure sensors[J]. Light: Advanced Manufacturing 5, 16(2024). doi: 10.37188/lam.2024.016
Ultrafast laser-induced decomposition for selective activation of GaAs
北京理工大学的徐可米教授团队和吉林大学的王磊副教授团队
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超快激光诱导分解:GaAs半导体材料的选择性激活
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https://doi.org/10.37188/lam.2024.026
「相关论文信息」Ke-Mi Xu, Chao Liu, Lei Wang, Feng-Chun Pang, Xin-Jing Zhao, Xian-Bin Li, Qi-Dai Chen, Wei-Qian Zhao. Ultrafast laser-induced decomposition for selective activation of GaAs[J]. Light: Advanced Manufacturing 5, 26(2024). doi: 10.37188/lam.2024.026
Functional plastic films: nano-engineered composite based flexible microwave antennas with near-unity relative visible transmittance
华中科技大学张诚教授、美国伊利诺伊大学芝加哥分校Pai-Yen Chen教授及美国密歇根大学L. Jay Guo教授团队
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高透明纳米复合柔性微波天线
② 阅读论文原文▼
https://doi.org/10.37188/lam.2024.036
「相关论文信息」Cheng Zhang, Liang Zhu, Chengang Ji, Zhilu Ye, Nabeel Alsaab, Minye Yang, Yuhui Hu, Pai-Yen Chen, L. Jay Guo. Functional plastic films: nano-engineered composite based flexible microwave antennas with near-unity relative visible transmittance[J]. Light: Advanced Manufacturing 5, 36(2024). doi: 10.37188/lam.2024.036
Parallel fabrication of silica optical microfibers and nanofibers
浙江大学郭欣教授和童利民教授团队
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氧化硅微纳光纤的并行制备
② 阅读论文原文▼
https://doi.org/10.37188/lam.2024.020
「相关论文信息」Hubiao Fang, Yu Xie, Zipei Yuan, Dawei Cai, Jianbin Zhang, Xin Guo, Limin Tong. Parallel fabrication of silica optical microfibers and nanofibers [J]. Light: Advanced Manufacturing5, 20(2024). doi: 10.37188/lam.2024.020
A shoe-box-sized 3D laser nanoprinter based on two-step absorption(双步吸收技术的进展实现了鞋盒大小的三维激光纳米打印机)
德国卡尔斯鲁厄理工学院Tobias Messer教授和Martin Wegener院士团队
① 阅读论文原文▼
https://doi.org/10.37188/lam.2024.027
「相关论文信息」Tobias Messer, Michael Hippe, Jingya (Lilyn) Gao, Martin Wegener. A shoe-box-sized 3D laser nanoprinter based on two-step absorption[J]. Light: Advanced Manufacturing 5, 27(2024). doi: 10.37188/lam.2024.027