Nuclear-spin relaxation and spin-wave collective modes in a disordered two-dimensional electron gas

15 May 1991

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

Vol. 43 (14) , 11686-11693
https://doi.org/10.1103/physrevb.43.11686

Abstract

The spin-polarization of nuclei near a two-dimensional electron gas (2D EG) may be relaxed by spin-flip excitations of the electron system. The spectrum of low-energy electronic spin-flip excitations depends on the disorder broadening of Landau levels and on the interaction enhancement of the Landau-level spin splitting. Disorder vertex corrections to the spin-flip response function capture the fact that the nuclear relaxation rate depends on local rather than thermodynamic Landau-level broadening, while interaction vertex corrections can strongly enhance the relaxation rate. We illustrate these effects by summing the disorder and interaction ladder diagrams for the spin-flip response function in the strong-magnetic-field limit. Our approach is also able to describe the effect of disorder on the spin-wave collective modes of a spin-polarized 2D EG.

Keywords

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