Enhanced two-dimensional ferromagnetism in van der Waals β-UTe3 monolayers
Sean M. Thomas, Andres E. Llacsahuanga Allcca, Wolfgang Simeth, Caitlin S. Kengle, Zachary W. Riedel, Fabio Orlandi, Dmitry Khalyavin, Pascal Manuel, Filip Ronning, Eric D. Bauer, Joe D. Thompson, Jian-Xin Zhu, Allen O. Scheie, Yong P. Chen, Priscila F. S. Rosa

TL;DR
Researchers found that β-UTe3 can be made into a single-layer ferromagnet with enhanced magnetic properties, offering a new platform for studying correlated materials.
Contribution
The discovery that β-UTe3 monolayers remain ferromagnetic with a higher ordering temperature than bulk material.
Findings
β-UTe3 can be exfoliated to the monolayer limit and remains ferromagnetic.
The monolayer has an enhanced ordering temperature of 35 K, twice that of the bulk material.
Abstract
The discovery of local-moment magnetism in van der Waals (vdW) semiconductors down to the single-layer limit has led to a paradigm shift in the understanding of two-dimensional (2D) magnets. The incorporation of strong electronic and magnetic correlations in 2D vdW metals remains a sought-after platform to enable control of emergent quantum phases and to achieve more theoretically tractable microscopic models of complex materials. To date, however, there is limited success in the discovery of such metallic vdW platforms, and f-electron monolayers remain out of reach. Here, we demonstrate that strongly correlated β–uranium tritelluride (β-UTe3) can be exfoliated to the monolayer limit. Unexpectedly, β-UTe3 remains ferromagnetic in this limit with an enhanced ordering temperature of 35 kelvin, a factor of two larger than its bulk counterpart. Our work establishes β-UTe3 as a materials…
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Taxonomy
Topics2D Materials and Applications · Topological Materials and Phenomena · Advanced Condensed Matter Physics
