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New insight into tuning magnetic phases of RMn6Sn6 kagome metals

S. X. M. Riberolles, Tianxiong Han, Tyler J. Slade, John M. Wilde, A. Sapkota, Wei Tian, Qiang Zhang, D. L. Abernathy, L. D. Sanjeewa, Sergey L. Bud’ko, P. C. Canfield, R. J. McQueeney, B. G. Ueland

2024npj Quantum Materials21 citationsDOIOpen Access PDF

Abstract

Abstract Predicting magnetic ordering in kagome compounds offers the possibility of harnessing topological or flat-band physical properties through tuning of the magnetism. Here, we examine the magnetic interactions and phases of ErMn 6 Sn 6 which belongs to a family of R Mn 6 Sn 6 , R = Sc, Y, Gd–Lu, compounds with magnetic kagome Mn layers, triangular R layers, and signatures of topological properties. Using results from single-crystal neutron diffraction and mean-field analysis, we find that ErMn 6 Sn 6 sits close to the critical boundary separating the spiral-magnetic and ferrimagnetic ordered states typical for non-magnetic versus magnetic R layers, respectively. Finding interlayer magnetic interactions and easy-plane Mn magnetic anisotropy consistent with other members of the family, we predict the existence of a number of temperature and field dependent collinear, noncollinear, and noncoplanar magnetic phases. We show that thermal fluctuations of the Er magnetic moment, which act to weaken the Mn-Er interlayer magnetic interaction and quench the Er magnetic anisotropy, dictate magnetic phase stability. Our results provide a starting point and outline a multitude of possibilities for studying the behavior of Dirac fermions in R Mn 6 Sn 6 compounds with control of the Mn spin orientation and real-space spin chirality.

Topics & Concepts

FerrimagnetismCondensed matter physicsMagnetismMagnetic momentMagnetic fieldMagnetic structureMagnetic anisotropyNeutron diffractionParamagnetismSpin (aerodynamics)Magnetic susceptibilityMagnetizationPhysicsMaterials scienceDiffractionOpticsThermodynamicsQuantum mechanicsAdvanced Condensed Matter PhysicsTopological Materials and PhenomenaMagnetic and transport properties of perovskites and related materials
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