Dresden 2017 – wissenschaftliches Programm

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MA: Fachverband Magnetismus

MA 19: Transport: Topological Semimetals 1 (jointly with DS, MA, HL, O)

MA 19.5: Vortrag

Dienstag, 21. März 2017, 10:45–11:00, HSZ 201

Quantum oscillation and Dirac fermion in BaZnBi₂ system — •Kan Zhao and Philipp Gegenwart — Experimentalphysik VI, Center for Electronic Correlations and Magnetism, Augsburg University, 86159 Augsburg, Germany

Dirac semimetals represent new quantum states of matter and have stimulated intensive studies. AMnBi₂(A = alkali earth/rare earth metal) is one of the established Dirac semimetals, with both antiferromagnetic order in MnBi₄ layer and Dirac fermion in Bi square net layer.

To investigate how the magnetism interacts with Dirac fermions, we synthesized single crystals of SrZnBi₂ and BaZnBi₂. Being isostructural to SrMnBi₂, SrZnBi₂ shows no quantum oscillation in resistivity and magnetic susceptibility up to 14 T. However, BaZnBi₂ shows clear multiple quantum oscillations down to 4 T in magnetic susceptibility. According to the temperature dependence of the oscillation amplitude after fast Fourier transformation (FFT), the effective electron mass is about 0.1me, comparable with that of BaMnBi₂. In the resistivity measurement up to 14 T at 2 K clear SdH oscillations with main oscillation frequency 168T are observed. The frequency follows a 1/|cos(θ)| dependence (θ is the angle between magnetic field and c axis), indicating a quasi 2D Fermi surface. Band-structure calculations by I. Mazin, indicate that BaZnBi₂ exhibits a unique structure feature and electronic structure, with a quasi Dirac band near the Fermi level. ARPES and high-field SdH measurements, to further characterize the Dirac fermions, are in progress.