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Chiral separation effect in nonhomogeneous systems
M. Suleymanov
, M. A. Zubkov
Ariel University
Research output
:
Contribution to journal
›
Article
›
peer-review
16
Scopus citations
Overview
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Keyphrases
Non-homogeneous System
100%
Chiral Separation Effect
100%
Magnetic Field
50%
Low Energy
50%
External Magnetic Field
50%
Fermi Surface
50%
Quasiparticles
50%
Topological Invariants
50%
Green's Function
50%
Chemical Potential
50%
Non-homogeneity
50%
Momentum Space
50%
Electric Potential
50%
Potential Field
50%
Low-energy Effective Theory
50%
Energy Theory
50%
Non-dissipative
50%
Axial Current
50%
Inhomogeneous Systems
50%
Chiral Symmetry
50%
Engineering
External Magnetic Field
100%
Singularities
100%
Magnetic Field
100%
Green Function
100%
Electric Potential
100%
Chemical Potential
100%
Chemistry
Chirality in Separations
100%
Magnetic Field
100%
Tight Binding Model
50%
Quasiparticle
50%
Electric Potential
50%
Chemical Potential
50%
Physics
Magnetic Field
100%
Fermi Surface
50%
Quasiparticle
50%
Green's Functions
50%
Electric Potential
50%
Inhomogeneity
50%