《光电进展》(英文)“60 Years of Laser”虚拟专题

 

激光(Light Amplification by Stimulated Emission of Radiation,Laser),即受激辐射光放大,其原理最早于1917年被爱因斯坦发现。1960年5月,美国加利福尼亚州休斯研究实验室的科学家西奥多·梅曼(Theodore Maiman)获得了人类有史以来的第一台激光器,这是一台低功率的红宝石激光器。经过60年的发展,如今激光已成为我们日常生活的重要组成部分,在工业、医疗、互联网、商业、信息和军事等领域应用广泛,并且约20项与激光密切相关的研究成果获得了诺贝尔奖。

 

为了庆祝激光器诞生60周年和“国际光日”, 英文期刊 Opto-Electronic Advances (光电进展)特别推出“60 Years of Laser”虚拟专题,精选了创刊两年来与激光相关的18篇重要论文,涵盖激光器的开发、激光加工、激光显示、激光化学等领域,集中展示和探讨激光领域的研究成果和进展,促进激光研究的交流与创新,推动相关领域向纵深发展。

 

“60 Years of Laser”虚拟专题

 

1. Direct laser interference patterning of nonvolatile magnetic nanostruc-tures in Fe60Al40 alloy via disorder-induced ferromagnetism

Philipp Graus*, Thomas B. Möller, Paul Leiderer, Johannes Boneberg, Nikolay I. Polushkin*【University of Konstanz, Germany】

Opto-Electron Adv 3, 190027 (2020)

 
2. Development of a hybrid photoacoustic and optical monitoring system for the study of laser ablation processes upon the removal of encrustation from stonework 

Athanasia Papanikolaou, George J. Tserevelakis, Kristalia Melessanaki, Costas Fotakis, Giannis Zacharakis, Paraskevi Pouli*【Foundation for Research and Technology Hellas, Institute of Electronic Structure and Laser, Greece】

Opto-Electron Adv 3, 190037 (2020)

 

3. Optically pumped room temperature low threshold deep UV lasers grown on native AlN substrates  

Akhil Raj Kumar Kalapala, Dong Liu, Sang June Cho, Jeongpil Park, Deyin Zhao, John D. Albrecht*, Baxter Moody*, Zhenqiang Ma*, Weidong Zhou*【University of Texas at Arlington, USA】

Opto-Electron Adv 3, 190025 (2020)

 
4. Speckle reduction using phase plate array and lens array   

Xiaohui Ma, Anting Wang*, Fenghua Ma, Shuimei Wu, Hai Ming 【University of Science and Technology of China, China】

Opto-Electron Adv 3, 190036 (2020)

 

5. Passively Q-switched Tm/Ho composite laser  

Haizhou Huang, Jinhui Li, Jing Deng, Yan Ge, Huagang Liu, Jianhong Huang, Wen Weng, Wenxiong Lin*【Fujian Institute of Research on the Structure of Matter, CAS, China】

Opto-Electron Adv 3, 190031 (2020)

 
6. Laser machining of transparent brittle materials: from machining strategies to applications

Xiaozhu Xie*, Caixia Zhou, Xin Wei, Wei Hu, Qinglei Ren【Guangdong University of Technology, China】

Opto-Electron Adv 2, 180017 (2019)

 
7. Hierarchical microstructures with high spatial frequency laser induced periodic surface structures possessing different orientations created by femtosecond laser ablation of silicon in liquids

Dongshi Zhang,Koji Sugioka*【RIKEN Center for Advanced Photonics, Japan】

Opto-Electron Adv 2, 190002 (2019)

 
8. Ionization behavior and dynamics of picosecond laser filamentation in sapphire

Amina, Lingfei Ji*, Tianyang Yan, Rui Ma【Beijing University of Technology, China】

Opto-Electron Adv 2, 190003 (2019)

 
9. Etching-assisted femtosecond laser modification of hard materials

Xue-Qing Liu, Ben-Feng Bai, Qi-Dai Chen, Hong-Bo Sun*【Tsinghua University, China】

Opto-Electron Adv 2, 190021 (2019)

 
10. Spectrum evolution of Rayleigh backscattering in one-dimensional waveguide   

Fuhui Li, Tianyi Lan, Ligang Huang, Iroegbu Paul Ikechukwu, Wuming Liu, Tao Zhu*【Chongqing University, China】

Opto-Electron Adv 2, 190012 (2019)

 
11. Polariton lasing in InGaN quantum wells at room temperature

Jinzhao Wu, Hao Long*, Xiaoling Shi, Song Luo, Zhanghai Chen, Zhechuan Feng, Leiying Ying, Zhiwei Zheng, Baoping Zhang*【Xiamen University, China】

Opto-Electron Adv 2, 190014 (2019)

 
12. Ultra-low cost Ti powder for selective laser melting additive manufacturing and superior mechanical properties associated

Yuhang Hou, Bin Liu, Yong Liu, Yinghao Zhou, Tingting Song, Qi Zhou, Gang Sha, Ming Yan*【Southern University of Science and Technology, China】

Opto-Electron Adv 2, 180028 (2019)

 
13. Fabrication of three-dimensional proteinaceous micro- and nano-structures by femtosecond laser cross-linking

Daniela Serien, Koji Sugioka*【RIKEN Center for Advanced Photonics, Japan】

Opto-Electron Adv 1, 180008 (2018)

 
14. Enhancement of laser ablation via interacting spatial double-pulse effect

Rui Zhou*, Shengdong Lin, Ye Ding, Huan Yang, Kenny Ong Yong Keng, Minghui Hong*【Xiamen University, China】

Opto-Electron Adv 1, 180014 (2018)

 
15. Acoustic wave detection of laser shock peening

Jiajun Wu, Jibin Zhao*, Hongchao Qiao, Xuejun Liu, Yinuo Zhang, Taiyou Hu【Shenyang Institute of Automation, CAS, China】

Opto-Electron Adv 1, 180016 (2018)

 
16. 850/940-nm VCSEL for optical communication and 3D sensing 

Chih-Hsien Cheng, Chih-Chiang Shen, Hsuan-Yun Kao, Dan-Hua Hsieh, Huai-Yung Wang, Yen-Wei Yeh, Yun-Ting Lu, Sung-Wen Huang Chen, Cheng-Ting Tsai, Yu-Chieh Chi, Tsung Sheng Kao, Chao-Hsin Wu*, Hao-Chung Kuo*, Po-Tsung Lee, Gong-Ru Lin*【Chiao Tung University, Taiwan, China】

Opto-Electron Adv 1, 180005 (2018)

 
17. Diffractive photonic applications mediated by laser reduced graphene oxides 

Sicong Wang, Xueying Ouyang, Ziwei Feng, Yaoyu Cao, Min Gu*, Xiangping Li*【Jinan University, China】

Opto-Electron Adv 1, 170002 (2018)

 

18. Progress of optically pumped GaSb based semiconductor disk laser

Shili Shu, Guanyu Hou, Jian Feng, Lijie Wang, Sicong Tian, Cunzhu Tong*, Lijun Wang【Changchun Institute of Optics, Fine Mechanics and Physics,  CAS, China】

Opto-Electron Adv 1, 170003 (2018)

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“国际光日”

每年的5月16日是联合国教科文组织执行委员会签署通过的“国际光日”。

“国际光日”设在5月16日是为了纪念1960年由美国休斯研究实验室的物理学家梅曼制造出第一台红宝石激光器。激光器在医疗保健和互联网上的应用对社会变革产生了深刻影响,并得到了广泛认可。“国际光日”的设立,目的是为强调光在科学、文化、艺术和教育以及可持续发展、医药、通信、能源等多个领域的重要作用。

“国际光日”的标识已经被纳入了联合国以消除贫困、保护地球、确保所有人享有和平与繁荣而设立的可持续发展目标(Sustainable Development Goals)的标识之中,并强调“国际光日”的中心是可持续发展应用。