Parallel Magnetic Field Induced Giant Magnetoresistance in Low Density Quasi-Two-Dimensional Layers

12 June 2000

journal article
research article
Published by American Physical Society (APS) in Physical Review Letters

Vol. 84 (24), 5596-5599
https://doi.org/10.1103/physrevlett.84.5596

Abstract

We provide a possible theoretical explanation for the recently observed giant positive magnetoresistance in high mobility low density quasi-two-dimensional electron and hole systems. Our explanation is based on the strong coupling of the parallel field to the orbital motion arising from the finite layer thickness and the large Fermi wavelength of the quasi-two-dimensional system at low carrier densities.

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This publication has 9 references indexed in Scilit:

Response to parallel magnetic field of a dilute two-dimensional electron system across the metal-insulator transition
Physical Review B, 1999
Charged Impurity-Scattering-Limited Low-Temperature Resistivity of Low-Density Silicon Inversion Layers
Physical Review Letters, 1999
Spin Degree of Freedom in a Two-Dimensional Electron Liquid
Physical Review Letters, 1999
Metal-Insulator Transition at $B = 0$ in a Dilute Two Dimensional GaAs-AlGaAs Hole Gas
Physical Review Letters, 1998
Magnetic Field Suppression of the Conducting Phase in Two Dimensions
Physical Review Letters, 1997
Instability of the two-dimensional metallic phase to a parallel magnetic field
JETP Letters, 1997
Self-consistent electronic structure of parabolic semiconductor quantum wells: Inhomogeneous-effective-mass and magnetic-field effects
Physical Review B, 1993
Charged-particle interaction with liquids: Ripplon excitations
Physical Review B, 1989
Electron energy levels in GaAs- ${Ga}_{1 - x} {Al}_{x} As$ heterojunctions
Physical Review B, 1984

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