Refining the Two-Band Model for Highly Compensated Semimetals Using Thermoelectric Coefficients

Abstract

In studying compensated semimetals, the two-band model has proven extremely useful in capturing electrical conductivity under magnetic field, as a function of density and mobility of electron-like and hole-like carriers. However, it rarely offers practical insight into magneto-thermoelectric properties. Here, we report the field dependence of thermoelectric (TE) coefficients in a highly compensated semimetal NbSb2, where we find the Seebeck and Nernst coefficients increase quadratically and linearly with applied magnetic field, respectively. Such field dependence was predicted in previous work that studied a system of two parabolic bands, within semiclassical Boltzmann transport theory when the following two conditions are simultaneously met:ωcτ 1 and θH 1. Under these conditions, we find the field dependence of the TE coefficients directly provides a relation between the electron-like (ne) and hole-like (nh) carrier densities, which in turn can be used to refine two-band model fitting. With this, we find the compensation factor (| n|ne) of NbSb2 is two orders of magnitude smaller than what was found in unrestricted fitting, resulting in a larger saturation field scale for magnetoresistance. Within the same framework of the semiclassical theory, we also deduce that the thermoelectric Hall angle θγ = SxySxx can be expressed as (| n|ne × ωcτ)-1, which serves as a parameter to predict the degree of compensation. Our findings offer crucial insights into identifying empirical conditions for field-induced enhancement of TE performance and into engineering efficient thermoelectric devices based on semimetallic materials.

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