Ambient and high-pressure electrical transport and structural investigations of magnetic Weyl semimetal PrAlGe

Abstract

We present ambient and high-pressure electrical transport and structural properties of recently discovered magnetic Weyl semimetal PrAlGe. Electrical resistivity at ambient pressure shows an anomaly at TC = 15.1 K related to the ferromagnetic transition. Anomalous Hall effect (AHE) is observed below TC. We observe a 1.4 K/GPa increase of TC with pressure, resulting in TC ≈ 47 K at 23.0 GPa. Strong competition between Lorentz force and spin-scattering mechanisms suppressed by magnetic field is deduced from the magnetoresistance measurements under pressure. As in the ambient pressure case, the AHE is found to be present below TC up to the highest applied pressure. We observe a clear anomaly in the pressure dependence of TC, magnetoresistance and Hall effect at 12.5 GPa suggesting the occurrence of a pressure-induced electronic transition at this pressure. X-ray diffraction (XRD) experiment under pressure revealed the lattice structure to be stable up to 19.6 GPa with the absence of any symmetry changing structural phase transition from the initial I41md structure. Careful analysis of the pressure dependent XRD data reveal an isostructural transition near 11 GPa. Observed isostructural transition may be related to the pressure-induced electronic transition deduced from the magnetoresistance and Hall effect data.