On the magnetotransport of 3D systems in quantizing magnetic field

TL;DR

This paper analyzes the magnetotransport properties of three-dimensional electron systems in strong magnetic fields, accounting for thermoelectric effects, and reveals universal oscillatory behavior in resistivity components.

Contribution

It introduces a comprehensive calculation of 3D electron gas resistivity considering thermoelectric effects, highlighting universal oscillations in magnetoresistivity components.

Findings

Resistivity components show 1/H-period oscillations.

Oscillations are universal functions of magnetic field and temperature.

Thermoelectric effects significantly influence magnetotransport properties.

Abstract

The resistivity components of 3D electron gas placed in quantizing magnetic field are calculated taking into account the correction caused by combined action of the Peltier and Seebeck thermoelectric effects. The longitudinal, transverse and the Hall magnetoresistivities exhibit familiar 1/H-period oscillations being universal functions of magnetic field and temperature.