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Phonon excitation and instabilities in biased graphene nanoconstrictions
Tue Gunst, Jing Tao Lu,
Per Hedegård
, Mads Brandbyge
Condensed Matter Physics
17
Citations (Scopus)
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Dive into the research topics of 'Phonon excitation and instabilities in biased graphene nanoconstrictions'. Together they form a unique fingerprint.
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Engineering & Materials Science
Phonons
100%
Graphene
75%
Electrodes
36%
Fermi level
27%
Density functional theory
23%
Electronic structure
23%
Joule heating
20%
Induced currents
20%
Green's function
18%
Electrons
16%
Current density
15%
Heating
11%
Physics & Astronomy
graphene
51%
phonons
43%
excitation
31%
electrodes
29%
high current
29%
Joule heating
18%
constrictions
14%
Green's functions
13%
breakdown
12%
density functional theory
12%
electronic structure
11%
current density
11%
harmonics
10%
heating
10%
approximation
8%
electrons
6%
Chemical Compounds
Phonon
71%
Graphene
45%
Behavior as Electrode
23%
Tight Binding Model
21%
Fermi Level
18%
Nonequilibrium
17%
Resonance
12%
Electronic State
11%
Current Density
11%
Force
10%
Density Functional Theory
9%
Electron Particle
8%