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Interaction effects in a two-dimensional electron gas in a random magnetic field: Implications for composite fermions and the quantum critical point
T. A. Sedrakyan, M. E. Raikh
Research output
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Contribution to journal
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Article
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peer-review
4
Scopus citations
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Dive into the research topics of 'Interaction effects in a two-dimensional electron gas in a random magnetic field: Implications for composite fermions and the quantum critical point'. Together they form a unique fingerprint.
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Chemical Compounds
Two-Dimensional Electron Gas
99%
Fermion
88%
Magnetic Field
52%
Electron Gas
43%
Tight Binding Model
37%
Disordered Structure
34%
Electron-Hole Pair
30%
Electron Particle
30%
Density of State
30%
Composite Material
27%
Energy
26%
Wavelength
19%
Strength
17%
Volume
16%
Engineering & Materials Science
Fermions
100%
Electrons
56%
Magnetic fields
48%
Composite materials
32%
Fermi level
32%
Fluxes
30%
Trajectories
25%
Green's function
21%
Scattering
17%
Wavelength
16%
Physics
16%
Physics & Astronomy
electron gas
53%
critical point
50%
fermions
45%
composite materials
34%
magnetic fields
27%
interactions
22%
trajectories
22%
de Broglie wavelengths
20%
life (durability)
19%
energy
12%
electrons
11%
Green's functions
11%
disorders
10%
intervals
10%
physics
8%
scattering
7%