The spatial distribution of the current and electron density is calculated for an ideal two-dimensional Hartree quantum Hall device in which the electron interactions are treated in the Hartree approximation. The calculations are based on an equilibrium-thermodynamics approach in which a constant current is imposed as a constraint on the system. As a consequence of the two-dimensional nature of the Coulomb interactions, there are large inhomogeneities in the electron-density and current distributions. The net current is found to be due principally to a redistribution of charges at the edges of the sample, while currents flowing in the bulk of the sample play only a minor role. The fact that a few inhomogeneously distributed states carry large currents gives a qualitative explanation for the spatial inhomogeneity and the low total current observed at the breakdown of the dissipationless quantum Hall effect. © 1985 The American Physical Society.
PROGNOSTIC FACTORS FOR HEPATOCELLULAR-CARCINOMA IN GENETIC HEMOCHROMATOSIS / S.R. Fargion, A.L. Fracanzani, A. Piperno, M. Braga, R. D’Alba, G. Ronchi, G. Fiorelli. - In: HEPATOLOGY. - ISSN 0270-9139. - 20:6(1985), pp. 1426-1431.
PROGNOSTIC FACTORS FOR HEPATOCELLULAR-CARCINOMA IN GENETIC HEMOCHROMATOSIS
S.R. FargionPrimo
;A.L. FracanzaniSecondo
;
1985
Abstract
The spatial distribution of the current and electron density is calculated for an ideal two-dimensional Hartree quantum Hall device in which the electron interactions are treated in the Hartree approximation. The calculations are based on an equilibrium-thermodynamics approach in which a constant current is imposed as a constraint on the system. As a consequence of the two-dimensional nature of the Coulomb interactions, there are large inhomogeneities in the electron-density and current distributions. The net current is found to be due principally to a redistribution of charges at the edges of the sample, while currents flowing in the bulk of the sample play only a minor role. The fact that a few inhomogeneously distributed states carry large currents gives a qualitative explanation for the spatial inhomogeneity and the low total current observed at the breakdown of the dissipationless quantum Hall effect. © 1985 The American Physical Society.
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