Derives universal relation ρ_c ∼ λ_D √(ℓ/L) for coherence length in Coulomb-disordered media using Efimov path-integral formalism, linking it to single-particle localization length ℓ.
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cond-mat.stat-mech 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
Extends static disorder-induced localization of a quantum particle in a classical one-component plasma to the dynamic regime, deriving a velocity-dependent effective disorder strength that alters localization scaling for slow particles.
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Localization of a quantum particle in a classical one-component plasma.III. Mutual coherence and coherence degradation in Coulomb-disordered media
Derives universal relation ρ_c ∼ λ_D √(ℓ/L) for coherence length in Coulomb-disordered media using Efimov path-integral formalism, linking it to single-particle localization length ℓ.
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Localization of a quantum particle in a classical one-component plasma. II. Dynamic Disorder and Temporal Decorrelation
Extends static disorder-induced localization of a quantum particle in a classical one-component plasma to the dynamic regime, deriving a velocity-dependent effective disorder strength that alters localization scaling for slow particles.