Opto-Electronic Advances
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2019年第2卷第4期
封面文章:Sun Q, Yu H, Ueno K, Zu S, Matsuo Y et al. Revealing the plasmon coupling in gold nanochains directly from the near field. Opto-Electron Adv 2, 180030 (2019).

Due to the subwavelength localization property of surface plasmons, traditional optical microscopy cannot fulfill the requirement of plasmonic characterization at nanoscale. To provide better guidelines for the design of nanophotonic devices, precisely revealing plasmonic properties at nanoscale is needed. Photoemission electron microscopy (PEEM) has been demonstrated as a promising approach to investigate the plasmonic properties of surface plasmons.
The research group of Prof. Hiroaki Misawa from the Research Institute for Electronic Science at Hokkaido University studies on the plasmonic properties by using PEEM. They developed an ultrafast PEEM system, which allows to characterize the near-field properties of surface plasmons in multiple (spatial, spectral, and temporal) domains.

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在线出版日期:2019年4月1日
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Sun Q, Yu H, Ueno K, Zu S, Matsuo Y et al. Revealing the plasmon coupling in gold nanochains directly from the near field. Opto-Electron Adv 2, 180030 (2019). 
  综述
在线出版日期:2019年4月1日
查看: HTML 全文 | PDF 全文 | 下载 PDF(915.8 KB) | ESM
引用本文:
Ma J X, Zeng D Z, Yang Y T, Pan C, Zhang L et al. A review of crosstalk research for plasmonic waveguides. Opto-Electron Adv 2, 180022(2019).