Quantum oscillations of transport coefficients and capacitance: an unexpected manifestation of the spin-Hall effect

TL;DR

This study investigates quantum oscillations in transport coefficients and capacitance across various quantum wells, revealing unexpected effects linked to the spin-Hall effect and electron scattering mechanisms.

Contribution

It demonstrates that differences in oscillation amplitude ratios are due to spin-orbit interaction effects, not just energy spectrum peculiarities, supported by comparative experiments.

Findings

Amplitude ratios vary significantly between GaAs and HgTe QWs.

In HgTe QWs, the ratio behavior depends on the spectrum type (normal or inverted).

Electron scattering due to spin-orbit interaction influences oscillation characteristics.

Abstract

The results of systematic experimental studies of quantum oscillations of resistivity, Hall coefficient and capacitance in GaAs and In$_x$Ga$_{1-x}$As quantum wells (QWs) with a simple electron spectrum and HgTe QWs with a complicated non-parabolic spectrum and strong spin-orbit interaction are reported. A striking result is the ratio of the amplitudes of the resistance and Hall coefficient oscillations. In GaAs QW with a simple spectrum characterized by negligibly small Zeeman and spin-orbit splitting, the ratio of amplitudes is close to that predicted theoretically. In HgTe QWs, this ratio is very different and behaves differently in QWs with normal and inverted electron spectra. In HgTe WQs with a normal spectrum, it tends to a theoretical value with an increase of the filling factor ($N$), while for HgTe QWs with an inverted spectrum, it differs significantly from the theoretical one for all available $N$. It is assumed that such a difference in the ratio of amplitudes in GaAs and HgTe QWs is due not to the peculiarities of the energy spectrum of HgTe, but to the peculiarities of electron scattering due to spin-orbit interaction with the potential of the scatterers. This assumption is justified by analysis of experimental results obtained for a heterostructure with a In$_{0.2}$Ga$_{0.8}$As QW, which spectrum is very close to the GaAs QW spectrum, but characterizes by much stronger spin-orbit splitting value. It has been found that the positions of the resistance and capacitance oscillations, the difference between the phases of the resistance and Hall coefficient oscillations and its $N$ dependence are close to those observed in GaAs QW. At the same time the ratio of the amplitude of the resistance oscillations to the Hall coefficient oscillations and its $N$ dependence differs very strongly and they are close to that observed in HgTe quantum wells.