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Dive into the research topics of 'Plasmonic mode interactions with organic semiconductor gain media in nano-confined geometries'. Together they form a unique fingerprint.
Mathematics
Organic Semiconductors
Surface Plasmons
Plasmonics
Mode Interaction
Nanorods
Nanoparticles
Laser
Amplification
Heterostructures
Shell
Nanostructures
Pump
Gold
Thin Films
Polymers
Molecules
Spectrality
Dyes
Quenching
Near-field
Photon
Chip
Semiconductors
Wavelength
Metals
Absorption
Overlap
Propagation
Synthesis
Distinct
Energy
Analogue
Alternatives
Chemical Compounds
Surface plasmons
Organic semiconductor materials
Plasmonics
Nanorods
Core shell nanoparticles
Organic polymers
Amplification
Geometry
Heterojunctions
poly(2-methoxy-5-(2'-ethylhexyloxy)-p-phenylenevinylene)
Nanostructures
Gold
Molecules
Semiconducting polymers
Dye lasers
Thin films
Chromophores
Metallic films
Surface plasmon resonance
Pumps
Lasers
Absorption spectra
Photons
Quenching
Nanoparticles
Semiconductor materials
Wavelength
Metals
Engineering & Materials Science
Surface plasmons
Organic semiconductor materials
Plasmonics
Nanorods
Core shell nanoparticles
Organic polymers
Amplification
Geometry
Heterojunctions
Nanostructures
Gold
Molecules
Semiconducting polymers
Dye lasers
Thin films
Chromophores
Metallic films
Surface plasmon resonance
Pumps
Lasers
Absorption spectra
Photons
Quenching
Nanoparticles
Semiconductor materials
Wavelength
Metals
Physics & Astronomy
organic semiconductors
geometry
plasmons
interactions
nanorods
nanoparticles
gold
pumps
hybrid structures
polymers
chromophores
molecules
thin films
dye lasers
surface plasmon resonance
polaritons
lasers
emitters
quenching
analogs
chips