Uniaxial ferromagnetism in the kagome metal TbV${_6}$Sn${_6}$

TL;DR

This paper reports the synthesis and detailed characterization of the kagome metal TbV6Sn6, revealing uniaxial ferromagnetism, large magnetic anisotropy, and complex electronic behavior, making it a promising platform for studying magnetic and topological phenomena.

Contribution

It introduces TbV6Sn6 as a new kagome metal exhibiting uniaxial ferromagnetism and detailed electronic properties, expanding understanding of magnetic kagome systems.

Findings

Uniaxial ferromagnetism with large anisotropy observed.

Phase transition at 4.1K confirmed by multiple measurements.

Electronic transport shows two-band behavior and anomalous Hall effect.

Abstract

The synthesis and characterization of the vanadium-based kagome metal TbV${_6}$Sn${_6}$ is presented. X-ray measurements confirm this material forms with the same crystal structure type as the recently investigated kagome metals GdV$_6$Sn$_6$ and YV$_6$Sn$_6$, with space group symmetry P6/mmm. A signature of a phase transition at 4.1K is observed in heat capacity, resistivity, and magnetic susceptibility measurements, and both resistivity and magnetization measurements exhibit hysteresis in magnetic field. Furthermore, a strikingly large anisotropy in the magnetic susceptibility was observed, with the c-axis susceptibility nearly 100 times the ab plane susceptibility at 2K. This is highly suggestive of uniaxial ferromagnetism, and the large size of 9.4$\mu_b$/f.u. indicates the Tb$^{3+}$ $4f$ electronic moments cooperatively align perpendicular to the V kagome lattice plane. The entropy at the phase transition is nearly Rln(2), indicating that the CEF ground state of the Tb$^{3+}$ ion is a doublet, and therefore the sublattice of $4f$ electrons in this material can be shown to map at low temperatures to the Ising model in a D$_{6h}$ symmetry environment. Hall measurements at temperatures from 300K to 1.7K can be described by two-band carrier transport at temperatures below around 150K, with a large increase in both hole and electron mobilities, similar to YV$_6$Sn$_6$, and an anomalous Hall effect is seen below the ordering temperature. Angle-resolved photoemission measurements above the magnetic ordering temperature reveal typical kagome dispersions. Our study presents TbV${_6}$Sn${_6}$ as an ideal system to study the interplay between Ising ferromagnetism and non-trivial electronic states emerging from a kagome lattice.