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Observation of Spin‐Induced Ferroelectricity in a Layered van der Waals Antiferromagnet CuCrP<sub>2</sub>S<sub>6</sub>

Chang Bae Park, Aga Shahee, Kwang-Tak Kim, Kwang‐Tak Kim, Deepak R. Patil, С. А. Гуда, N. V. Ter-Oganessian, Kee Hoon Kim, Kee Hoon Kim

2022Advanced Electronic Materials53 citationsDOI

Abstract

Abstract CuCrP 2 S 6 , a van der Waals magnet having stacked layers of 2D honeycomb lattice made of CuS 3 triangles and CrS 6 octahedra, exhibits an A‐type antiferromagnetic order with the Néel temperature ( T N ) = 32 K. Upon in‐plane magnetic field ( H ) being applied below T N , H ‐induced modulation of the c *‐axis electric polarization (Δ P c* ) is found at fields lower than the saturation field µ 0 H S = 6.1 T, at which a forced ferromagnetic alignment sets in. Based on the symmetry analyses and dependence of Δ P c* on H and the azimuthal angle of applied H direction, a microscopic origin of the magnetoelectric (ME) coupling is attributed to the spin‐direction‐dependent p – d hybridization that is allowed due to the presence of off‐centered Cr 3+ octahedra. A comparative study on CuCrP 2 Se 6 , however, finds no H ‐induced P modulation due to cancellation of P between neighboring layers with the doubling of a crystallographic unit cell at T N . As the p – d hybridization mechanism allows generation of P in a single Cr atom–ligand pair, the results imply that large ME coupling should exist even in a single layer limit of CuCrP 2 S 6 .

Topics & Concepts

Condensed matter physicsAntiferromagnetismvan der Waals forceMaterials scienceFerromagnetismOctahedronFerroelectricitySaturation (graph theory)Electric fieldCrystallographyCrystal structurePhysicsChemistryDielectricOptoelectronicsMathematicsMoleculeCombinatoricsQuantum mechanicsMultiferroics and related materialsAdvanced Condensed Matter Physics2D Materials and Applications
Observation of Spin‐Induced Ferroelectricity in a Layered van der Waals Antiferromagnet CuCrP<sub>2</sub>S<sub>6</sub> | Litcius