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Molecular plasmonics: The role of rovibrational molecular states in exciton-plasmon materials under strong-coupling conditions
Maxim Sukharev
, Eric Charron
Integrative Sciences and Arts, College of (CISA)
Research output
:
Contribution to journal
›
Article
›
peer-review
10
Scopus citations
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Dive into the research topics of 'Molecular plasmonics: The role of rovibrational molecular states in exciton-plasmon materials under strong-coupling conditions'. Together they form a unique fingerprint.
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Engineering & Materials Science
Plasmons
100%
Excitons
99%
Plasmonics
83%
Molecules
55%
Potential energy surfaces
18%
Wave packets
18%
Surface plasmons
18%
Absorption spectra
16%
Hybrid materials
16%
Optical properties
14%
Hybrid systems
11%
Metals
7%
Physics & Astronomy
plasmons
46%
excitons
44%
molecules
30%
electronics
11%
wave packets
11%
polaritons
10%
slits
10%
near fields
9%
potential energy
9%
emitters
9%
alignment
8%
absorption spectra
8%
continuums
8%
optical properties
7%
probes
6%
propagation
6%
characterization
6%
metals
5%
simulation
4%
Chemical Compounds
Molecule
19%
Wave Packet
17%
Reflection Spectrum
14%
Electronic Transition
12%
Potential Energy Surface
10%
Optical Property
8%
Absorption Spectrum
8%
Simulation
7%
Probe
6%
Surface
3%