Anisotropic magnetism and electronic structure of trigonal EuAl2Ge2 single crystals

Abstract

The magnetic and electronic properties of the layered Zintl-phase compound EuAl2Ge2 crystallizing in the trigonal CaAl2Si2-type structure are reported. Our neutron-diffraction measurements show that EuAl2Ge2 undergoes A-type antiferromagnetic (AFM) ordering below T N = 27.5(5)~K, with the Eu moments (Eu2+, S = 7/2) aligned ferromagnetically in the ab plane. The H = 0 magnetic structure consists of trigonal AFM domains associated with ab-plane magnetic anisotropy and a field-induced reorientation of the Eu spins in the domains is evident at T = 2~K below the critical field Hc1 = 2.5(1) kOe. Electrical resistivity and ARPES measurements show that EuAl2Ge2 is metallic both above and below T N. In the AFM phase, we directly observe folded bands in ARPES due to the doubling of the magnetic unit cell along the c axis with an enhancement of quasiparticle weight due to the complex change in the coupling between the magnetic moments and itinerant electrons on cooling below T N. The observed electronic structure is well reproduced by first-principle calculations, which also predict the presence of nontrivial electronic states near the Fermi level in the AFM phase with Z2 topological numbers 1;(000).