环形电动力学与光谱学的兴起。
The Rise of Toroidal Electrodynamics and Spectroscopy.
作者信息
Zheludev Nikolay I, Wilkowski David
机构信息
Optoelectronics Research Centre, University of Southampton, Southampton, SO17 1BJ, United Kingdom.
Centre for Disruptive Photonic Technologies, SPMS, The Photonics Institute, Nanyang Technological University, Singapore 637371, Singapore.
出版信息
ACS Photonics. 2023 Mar 15;10(3):556-558. doi: 10.1021/acsphotonics.2c01953.
Toroidal electrodynamics is now massively influencing research in toroidal (Marinov et al. , , 234; Basharin et al. , , 011036; Jeong et al. , , 1699) and anapole metamaterials (Basharin et al. , , 035104; Wu et al. , , 1920), optical properties of nanoparticles (Miroshnichenko et al. , , 8069; Gurvitz et al. , , 1800266), plasmonics (Ogut et al. , , 5239; Yezekyan et al. , , 6098), sensors (Gupta et al. , 121108; Ahmadivand et al. , , 108; Wang et al. , , 1295; Yao et al. , , 23), and lasers (Huang et al. , , 1237; Hwang et al. , , 3599), while a recent publication on toroidal optical transitions in hydrogen-like atoms (Kuprov et al. , , eabq7651) promises to launch a new chapter in spectroscopy. In this Viewpoint, we review these progresses.
环形电动力学目前正在极大地影响着环形领域(马里诺夫等人,[文献引用1]、[文献引用2]、234;巴沙林等人,[文献引用3]、[文献引用4]、011036;郑等人,[文献引用5]、[文献引用6]、1699)和零极超材料(巴沙林等人,[文献引用7]、[文献引用8]、035104;吴等人,[文献引用9]、[文献引用10]、1920)的研究,以及纳米颗粒的光学性质(米罗什尼琴科等人,[文献引用11]、[文献引用12]、8069;古尔维茨等人,[文献引用13]、[文献引用14]、1800266)、等离子体激元学(奥古特等人,[文献引用15]、[文献引用16]、5239;叶泽基扬等人,[文献引用17]、[文献引用18]、6098)、传感器(古普塔等人,[文献引用19]、121108;艾哈迈迪万德等人,[文献引用20]、[文献引用21]、108;王等人,[文献引用22]、[文献引用23]、1295;姚等人,[文献引用24]、[文献引用25]、23)和激光(黄等人,[文献引用26]、[文献引用27]、1237;黄等人,[文献引用28]、[文献引用29]、3599)的研究。而最近一篇关于类氢原子中环形光学跃迁的论文(库普罗夫等人,[文献引用30]、[文献引用31]、eabq76
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