Article

Plasmonic nanolaser using epitaxially grown silver film.

Department of Physics, National Tsing-Hua University, Hsinchu 30013, Taiwan.
Science (impact factor: 31.2). 07/2012; 337(6093):450-3. DOI:10.1126/science.1223504 pp.450-3
Source: PubMed

ABSTRACT A nanolaser is a key component for on-chip optical communications and computing systems. Here, we report on the low-threshold, continuous-wave operation of a subdiffraction nanolaser based on surface plasmon amplification by stimulated emission of radiation. The plasmonic nanocavity is formed between an atomically smooth epitaxial silver film and a single optically pumped nanorod consisting of an epitaxial gallium nitride shell and an indium gallium nitride core acting as gain medium. The atomic smoothness of the metallic film is crucial for reducing the modal volume and plasmonic losses. Bimodal lasing with similar pumping thresholds was experimentally observed, and polarization properties of the two modes were used to unambiguously identify them with theoretically predicted modes. The all-epitaxial approach opens a scalable platform for low-loss, active nanoplasmonics.

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Keywords

active nanoplasmonics
 
all-epitaxial approach
 
atomic smoothness
 
atomically smooth epitaxial silver film
 
Bimodal lasing
 
continuous-wave operation
 
epitaxial gallium nitride shell
 
indium gallium nitride core
 
low-loss
 
metallic film
 
modal volume
 
modes
 
nanolaser
 
plasmonic losses
 
plasmonic nanocavity
 
polarization properties
 
subdiffraction nanolaser
 
two modes