Heating of Two-Dimensional Holes in SiGe and the B = 0 Metal-Insulator Transition

Abstract

We study the resistivity vs. electric field dependence (E) of a 2D hole system in SiGe close to the B=0 metal-insulator transition. Using as a ``thermometer'' to obtain the effective temperature of the holes Te(E), we find that the (E) dependence can be attributed to hole heating. The hole-phonon coupling involves weakly screened piezoelectric and deformation potentials compatible with previous measurements. The damping of the Shubnikov-de Haas oscillations gives the same Te values. Thus the (E) dependence and the E-field ``scaling'' do not provide additional evidence for a quantum phase transition (QPT). We discuss how to study, in general, true E-field scaling and extract the ratio of the QPT characteristic lengths.

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