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Electrical tuning of a quantum plasmonic resonance
Xiaoge Liu
, Ju Hyung Kang
, Hongtao Yuan
, Junghyun Park
,
Soo Jin Kim
, Yi Cui
, Harold Y. Hwang
, Mark L. Brongersma
Research output
:
Contribution to journal
›
Article
›
peer-review
85
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Keyphrases
Plasmonic Resonance
100%
Quantum Size Effect
100%
Electrical Tuning
100%
Quantum Plasmonics
100%
Surface Plasmon Resonance
75%
Indium Tin Oxide
50%
Metallic Films
50%
Classical Model
50%
Surface Roughness
25%
Ionic Liquid
25%
Surface Reconstruction
25%
Oxide Layer
25%
Blue Shift
25%
Long History
25%
Nanometre
25%
Nanometer-sized
25%
Drude
25%
Metal Particles
25%
Charging Effect
25%
Inhomogeneous Broadening
25%
Single Particle Tracking
25%
Critical Voltage
25%
Surface Plasmon Excitation
25%
Deep Subwavelength
25%
Plasmonic Response
25%
Plasmonic Materials
25%
Nanostructure Size
25%
Noble Metal Nanostructures
25%
Active Tuning
25%
Quantum Mechanical Models
25%
Low Carrier Density
25%
Strong Light-matter Interaction
25%
Engineering
Size Effect
100%
Plasmonics
100%
Surface Plasmon
100%
Indium-Tin-Oxide
50%
Nanomaterial
50%
Nanometre
50%
Experimental Result
25%
Oxide Layer
25%
Mechanical Model
25%
Broadening
25%
Blueshift
25%
Critical Voltage
25%
Plasmon Excitation
25%
Carrier Concentration
25%
Physics
Quantum Size Effect
100%
Surface Plasmon Resonance
75%
Indium
50%
Nanomaterial
50%
Surface Plasmon
25%
Red Shift
25%
Blue Shift
25%
Noble Metal
25%
Particle Systematics
25%
Metal Particle
25%
Ionic Liquid
25%
Surface Roughness
25%
Material Science
Surface Plasmon
100%
Indium Tin Oxide
50%
Metallic Films
50%
Nanostructure
50%
Surface Roughness
25%
Particle Measurement
25%
Ionic Liquid
25%
Surface Reconstruction
25%
Carrier Concentration
25%
Plasmonic Metamaterials
25%