INTRINSIC INTEGER QUANTUM HALL-EFFECT IN A QUANTUM WIRE
UNSPECIFIED (1993) INTRINSIC INTEGER QUANTUM HALL-EFFECT IN A QUANTUM WIRE. [Journal Item]Full text not available from this repository.
Self-consistent calculations are made of the electrostatic Hall potential (EHP), local chemical potential (LCP), and current density in a 100-nm-wide wire containing two-dimensional electrons in a perpendicular magnetic field B when either one or two subbands are occupied. The corresponding Hall resistances, R(EHP) and R(LCP), are also calculated. The former is nearly linear in B in spite of subband depopulation. The latter is quantized but the quantization steps are rounded because of overlap of the forward and backward wave functions.
|Item Type:||Journal Item|
|Subjects:||Q Science > QC Physics|
|Journal or Publication Title:||PHYSICAL REVIEW B|
|Publisher:||AMERICAN PHYSICAL SOC|
|Date:||15 April 1993|
|Number of Pages:||4|
|Page Range:||pp. 10008-10011|
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