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陳 鴻宜
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ntnu.edu
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39
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2002
2022
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Engineering & Materials Science
Absorption spectra
8%
Charge density waves
77%
Coulomb interactions
7%
Curricula
8%
Doping (additives)
7%
Electron correlations
8%
Electron energy levels
9%
Electron transitions
7%
Electron-electron interactions
17%
Electronic structure
16%
Electrons
22%
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10%
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9%
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28%
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27%
Fermions
14%
Ground state
23%
Hamiltonians
11%
High temperature superconductors
24%
Hubbard model
51%
Impurities
42%
Inelastic neutron scattering
11%
Ions
7%
Iron
7%
Iron-based Superconductors
25%
Lattice constants
7%
Magnetic fields
23%
Magnetic properties
10%
Modulation
25%
Molecular orbitals
14%
Molecules
8%
Monolayers
21%
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20%
Orbits
14%
Phase diagrams
8%
Photoelectron spectroscopy
9%
Physics
7%
Resonant tunneling
14%
Scanning tunneling microscopy
32%
Scattering
18%
Spin density waves
75%
Spin orbit coupling
39%
Spintronics
12%
Students
7%
Superconducting materials
86%
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73%
Tellurium
13%
Temperature
12%
Vortex flow
9%
Wave functions
12%
Chemical Compounds
Antiferromagnetic
24%
Charge Density Wave
50%
Density of State
70%
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17%
Energy
17%
Fermi Level
6%
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Quasiparticle
27%
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14%
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21%
Selection Rule
5%
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13%
Spin Density Wave
55%
Spin-Orbit Coupling
22%
Statistical Ensemble
8%
Strain
5%
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13%
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49%
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100%
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38%
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7%
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20%
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19%
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7%
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19%
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7%
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12%
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11%
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10%
excitation
7%
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11%
Fermi surfaces
10%
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13%
graphene
6%
ground state
8%
Group 5A compounds
10%
high temperature superconductors
17%
impurities
26%
interactions
7%
interference
7%
iron
13%
magnetic fields
15%
magnetic properties
5%
modulation
16%
octets
5%
optical properties
5%
orbitals
8%
orbits
15%
quantum dots
22%
resonant tunneling
9%
rings
5%
sands
8%
scanning tunneling microscopy
17%
scattering
9%
signatures
9%
spectroscopy
7%
spin-orbit interactions
11%
superconductivity
26%
symmetry
10%
temperature dependence
6%
thermodynamics
5%
valence
6%
