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Electron-Beam-Driven III-Nitride Plasmonic Nanolasers in the Deep-UV and Visible Region.

Tao TaoTing ZhiBin LiuPeng ChenZili XieHong ZhaoFangfang RenDunjun ChenYoudou ZhengRong Zhang
Published in: Small (Weinheim an der Bergstrasse, Germany) (2019)
Plasmonic nanolasers based on wide bandgap semiconductors are presently attracting immense research interests due to the breaking in light diffraction limit and subwavelength mode operation with fast dynamics. However, these plasmonic nanolasers have so far been mostly realized in the visible light ranges, or most are still under optical excitation pumping. In this work, III-nitride-based plasmonic nanolasers emitting from the green to the deep-ultraviolet (UV) region by energetic electron beam injection are reported, and a threshold as low as 8 kW cm-2 is achieved. A fast decay time as short as 123 ps is collected, indicating a strong coupling between excitons and surface plasmon. Both the spatial and temporal coherences are observed, which provide a solid evidence for exciton-plasmon coupled polariton lasing. Consequently, the achievements in III-nitride-based plasmonic nanolaser devices represent a significant step toward practical applications for biological technology, computing systems, and on-chip optical communication.
Keyphrases
  • visible light
  • energy transfer
  • quantum dots
  • electron microscopy
  • single molecule
  • high resolution
  • high speed
  • high throughput
  • circulating tumor cells
  • room temperature
  • ionic liquid
  • solar cells