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Superluminal plasmons with resonant gain in population inverted bilayer graphene
Tony Low
, Pai Yen Chen, D. N. Basov
Electrical and Computer Engineering
Materials Research Science & Engineering Center
Research output
:
Contribution to journal
›
Article
›
peer-review
28
Scopus citations
Overview
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Projects and Grants
(2)
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Dive into the research topics of 'Superluminal plasmons with resonant gain in population inverted bilayer graphene'. Together they form a unique fingerprint.
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Weight
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Chemical Compounds
Plasmon
65%
Optical Gain
46%
Optical Phonon
44%
Graphene
40%
Asymmetry
30%
Communication
25%
Velocity
23%
Band Gap
21%
Energy
13%
Engineering & Materials Science
Plasmons
100%
Graphene
66%
Optical gain
49%
Energy gap
32%
Communication
14%
Physics & Astronomy
plasmons
46%
graphene
46%
group velocity
28%
communication
23%
asymmetry
21%
phonons
19%
electronics
14%
energy
8%