Probing the Fermi surface with Quantum Oscillation Measurements in the Dirac semimetal TaNiTe$_5$ (2403.12921v1)

Abstract: We report a detailed investigation of the Fermi surface in the layered Dirac semimetal TaNiTe$_5$, which hosts quasi-one-dimensional (quasi-1D) topological electronic properties. We have investigated the magnetoresistance and magnetic behaviour in high-quality TaNiTe$_5$ single crystals. Pronounced Shubnikov-de Haas (SdH) and de Haas-van Alphen (dHvA) oscillations are observed in magnetic fields above 3T and at temperatures of up to 22K. Five fundamental frequencies and light effective quasiparticle masses are obtained by fast Fourier transformation (FFT) and Lifshitz-Kosevich (LK) formula fits. The high resolution of the low-temperature FFT spectra allows us to investigate individual peaks in detail for the magnetic fields applied along all three crystallographic axes and in the a-c plane. The extracted values for the Berry phase of the obtained Fermi pockets approach $\pi$, demonstrating the nontrivial topological electronic properties of layered TaNiTe$_5$. The observed quantum oscillations in the magnetoresistance and magnetization data are consistent with ultra-high mobility Dirac carriers in the conduction band.