English

Spin reorientations in structurally metastable, disordered, and hexagonal Cr7Te8

Strongly Correlated Electrons 2026-01-23 v1

Abstract

Vapor deposited two-dimensional Cr7_{7}Te8_{8} displays unusual temperature dependent Hall effect properties, including a room temperature anomalous Hall effect, sign reversals of the Hall resistivity on cooling, and a peak in the Hall resistivity at low temperatures. The two dimensional Cr7_{7}Te8_{8} heterostructures that form the basis of these measurements are hexagonal in structure. We study the magnetic and structural properties of bulk Cr7_{7}Te8_{8} synthesized by quenching from 1000 ^{\circ}C with the goal of relating the magnetic, structural, and electronic properties. This quenched phase is metastable, hexagonal, and displays different magnetic properties from the slow-cooled and more thermodynamically stable monoclinic phase. High-resolution x-ray diffraction of the quenched hexagonal phase finds a first-order transition to a lower symmetry monoclinic phase on \textit{heating} above \sim 550 K. Magnetic susceptibility measurements of the quenched hexagonal phase reveal ferromagnetic ordering above room temperature, along with the two distinct transitions at \sim 220~K and \sim 70~K. Through neutron diffraction studies, we find the \sim 220 K anomaly is a spin reorientation transition of the ferromagnetically aligned magnetic moments and the 70\sim70 K feature represents a transition from a high temperature ferromagnet to a low temperature antiferromagnet. We suggest that these magnetic transitions are related to changes in the unit cell dimensions and are connected to the temperature dependent Hall resisitivity studied in two-dimensional heterostructures. This implies a link between structural, magnetic, and electronic properties in the ``pseudo" two-dimensional chromium tellurides.

Keywords

Cite

@article{arxiv.2601.15702,
  title  = {Spin reorientations in structurally metastable, disordered, and hexagonal Cr7Te8},
  author = {K. Guratinder and T. G. Romig and H. C. Mandujano and C. Stock and E. E. Rodriguez},
  journal= {arXiv preprint arXiv:2601.15702},
  year   = {2026}
}

Comments

Accepted in PRB

R2 v1 2026-07-01T09:15:20.672Z