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Updated: Jun 5, 2026

Determination of the Excitation and Coupling Rates Between Light Emitters and Surface Plasmon Polaritons
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Surface plasmon laser based on metal cavity array with two different modes.

Jiaqi Li1, Yuan Zhang, Ting Mei

  • 1Nanophotonics Lab, School of Electrical and Electronic Engineering, Nanyang Technological University, 639798, Singapore.

Optics Express
|December 18, 2010
PubMed
Summary
This summary is machine-generated.

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Researchers explored surface plasmon (SP) lasers using a novel metal substrate design. This study reveals distinct lasing mechanisms and proposes an optimized structure for efficient SP laser performance.

Area of Science:

  • Physics
  • Optics
  • Materials Science

Background:

  • Surface plasmon (SP) lasers offer unique light-matter interaction properties.
  • Existing designs often face limitations in efficiency and tunability.
  • Understanding resonant modes is crucial for advancing SP laser technology.

Purpose of the Study:

  • Investigate the phenomenon of surface plasmon lasers.
  • Analyze the distinct working mechanisms of two main resonant modes.
  • Propose an efficient design for SP lasers based on these findings.

Main Methods:

  • Theoretical investigation of a square array of rectangular cavities in a metal substrate.
  • Analysis of surface plasmon polariton (SPP) mode lasing.
  • Simulation and characterization of the proposed laser structure.

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Measurement of Scattering Nonlinearities from a Single Plasmonic Nanoparticle
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Last Updated: Jun 5, 2026

Determination of the Excitation and Coupling Rates Between Light Emitters and Surface Plasmon Polaritons
07:39

Determination of the Excitation and Coupling Rates Between Light Emitters and Surface Plasmon Polaritons

Published on: July 21, 2018

Low-cost Custom Fabrication and Mode-locked Operation of an All-normal-dispersion Femtosecond Fiber Laser for Multiphoton Microscopy
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Low-cost Custom Fabrication and Mode-locked Operation of an All-normal-dispersion Femtosecond Fiber Laser for Multiphoton Microscopy

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Measurement of Scattering Nonlinearities from a Single Plasmonic Nanoparticle

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Main Results:

  • Both main resonant modes of the proposed structure support SP laser operation.
  • The working mechanisms for these two modes are fundamentally different.
  • An efficient design exploiting these differences was proposed and analyzed.

Conclusions:

  • The proposed structure enables efficient SP laser operation through distinct resonant modes.
  • Understanding the underlying mechanisms allows for optimized laser design.
  • Further investigation into sample size effects on SPP mode lasing is warranted.