Coulomb screening in mesoscopic noise: A kinetic approach

Frederick Green; Mukunda P. Das

doi:10.1088/0953-8984/12/24/315

Coulomb screening in mesoscopic noise: A kinetic approach

Frederick Green, Mukunda P. Das

Research output: Contribution to journal › Article › peer-review

14 Citations (Scopus)

Abstract

Coulomb screening, together with degeneracy, is characteristic of the metallic electron gas. While there is little trace of its effects in transport and noise in the bulk, at mesoscopic scales the electronic fluctuations start to show appreciable Coulomb correlations. Within completely standard Boltzmann and Fermi-liquid frameworks, we analyze these phenomena and their relation to the mesoscopic fluctuation-dissipation theorem, which we prove. We identify two distinct screening mechanisms for mesoscopic fluctuations. One is the self-consistent response of the contact potential in a non-uniform system. The other couples to scattering, and is an exclusively non-equilibrium process. Contact-potential effects renormalize all thermal fluctuations, at all scales. Collisional effects are relatively short ranged and modify non-equilibrium noise. We discuss ways to detect these differences experimentally.

Original language	English
Pages (from-to)	5251-5273
Number of pages	23
Journal	Journal of Physics Condensed Matter
Volume	12
Issue number	24
DOIs	https://doi.org/10.1088/0953-8984/12/24/315
Publication status	Published - 19 Jun 2000

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title = "Coulomb screening in mesoscopic noise: A kinetic approach",

abstract = "Coulomb screening, together with degeneracy, is characteristic of the metallic electron gas. While there is little trace of its effects in transport and noise in the bulk, at mesoscopic scales the electronic fluctuations start to show appreciable Coulomb correlations. Within completely standard Boltzmann and Fermi-liquid frameworks, we analyze these phenomena and their relation to the mesoscopic fluctuation-dissipation theorem, which we prove. We identify two distinct screening mechanisms for mesoscopic fluctuations. One is the self-consistent response of the contact potential in a non-uniform system. The other couples to scattering, and is an exclusively non-equilibrium process. Contact-potential effects renormalize all thermal fluctuations, at all scales. Collisional effects are relatively short ranged and modify non-equilibrium noise. We discuss ways to detect these differences experimentally.",

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AU - Das, Mukunda P.

PY - 2000/6/19

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N2 - Coulomb screening, together with degeneracy, is characteristic of the metallic electron gas. While there is little trace of its effects in transport and noise in the bulk, at mesoscopic scales the electronic fluctuations start to show appreciable Coulomb correlations. Within completely standard Boltzmann and Fermi-liquid frameworks, we analyze these phenomena and their relation to the mesoscopic fluctuation-dissipation theorem, which we prove. We identify two distinct screening mechanisms for mesoscopic fluctuations. One is the self-consistent response of the contact potential in a non-uniform system. The other couples to scattering, and is an exclusively non-equilibrium process. Contact-potential effects renormalize all thermal fluctuations, at all scales. Collisional effects are relatively short ranged and modify non-equilibrium noise. We discuss ways to detect these differences experimentally.

AB - Coulomb screening, together with degeneracy, is characteristic of the metallic electron gas. While there is little trace of its effects in transport and noise in the bulk, at mesoscopic scales the electronic fluctuations start to show appreciable Coulomb correlations. Within completely standard Boltzmann and Fermi-liquid frameworks, we analyze these phenomena and their relation to the mesoscopic fluctuation-dissipation theorem, which we prove. We identify two distinct screening mechanisms for mesoscopic fluctuations. One is the self-consistent response of the contact potential in a non-uniform system. The other couples to scattering, and is an exclusively non-equilibrium process. Contact-potential effects renormalize all thermal fluctuations, at all scales. Collisional effects are relatively short ranged and modify non-equilibrium noise. We discuss ways to detect these differences experimentally.

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EP - 5273

JO - Journal of Physics Condensed Matter

JF - Journal of Physics Condensed Matter

IS - 24

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Coulomb screening in mesoscopic noise: A kinetic approach

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