Extended Kohler's Rule of Magnetoresistance in TaCo2Te2

Abstract

TaCo2Te2 is recently reported to be an air-stable, high mobility Van der Waals material with probable magnetic order. Here we investigate the scaling behavior of its magnetoresistance. We measured both the longitudinal (xx) and Hall (xy) magnetoresistivities of TaCo2Te2 crystals in magnetic fields parallel to the c-axis and found that the magnetoresistance violates the Kohler's rule MR f[H/0] while obeying the extended Kohler's rule MR f[H/(nT0)], where MR [xx(H)-0]/0, H is the magnetic field, nT is a thermal factor, xx(H) and 0 are the resistivities at H and zero field, respectively. While deviating from those of the densities of electrons (ne) and holes (nh) obtained from the two-band model analysis of the magnetoconductivities, the temperature dependence of nT is close to that of the Hall carrier densities nH calculated from the slopes of xy(H) curves at low magnetic fields, providing a new way to obtain the thermal factor in the extended Kohler's rule.

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