Strain Tunability of Perpendicular Magnetic Anisotropy in van der Waals Ferromagnets VI 3

Layered ferromagnets with strong magnetic anisotropy energy (MAE) have special applications in nanoscale memory elements in electronic circuits. Here, we report a strain tunability of perpendicular magnetic anisotropy in van der Waals (vdW) ferromagnets VI using magnetic circular dichroism measurements. For an unstrained flake, the - curve shows a rectangular-shaped hysteresis loop with a large coercivity (1.775 T at 10 K) and remanent magnetization. Furthermore, the coercivity can be enhanced to a maximum of 2.6 T under a 3.8% external in-plane tensile strain. Our DFT calculations show that the increased MAE under strain contributes to the enhancement of coercivity. Meanwhile, the strain tunability on the coercivity of CrI , with a similar crystal structure, is limited. The main reason is the strong spin-orbit coupling in V in VI octahedra in comparison with that in Cr . The strain tunability of coercivity in VI flakes highlights its potential for integration into vdW heterostructures.