https://doi.org/10.1140/epjb/s10051-022-00314-z
Regular Article - Solid State and Materials
CrI3 monolayer: magnetic and electronic behaviors under biaxial strain and external electric field—a first principle study
1
Surendranath Evening College, 700009, Kolkata, India
2
Sambhunath College, Labpur, 731303, Birbhum, West Bengal, India
Received:
20
December
2021
Accepted:
8
March
2022
Published online:
23
March
2022
We have studied the magnetic and electronic behaviors of CrI3 monolayer under biaxial strain and external electric field using first principle calculation. A magnetic phase transition from ferromagnetic to antiferromagnetic state has been observed under a compressing strain of − 6%. The observed influence of biaxial strain on magnetic anisotropy energy is also surprising. Under zero strain it is as high as 0.74 meV/Cr and increases rapidly with compressing strain reaching a value of 1.53 meV/Cr under a compressing strain of − 6%. Moreover, we observe a switching of magnetic easy axis from off-plane to in-plane direction under a tensile strain of 9%. In addition, the bandgap for spin-up ( from − 10% compressing strain to 10% tensile strain at first increases slowly and exhibits a maximum (~ 0.60 eV) for zero strain. Then it gradually reduces to ~ 0.42 eV for 10% tensile strain. However, the bandgap for spin-down ( increases monotonically within the entire range and reaches maximum (~ 2.02 eV) for 10% tensile strain. On the other hand, external electric field applied along the off-plane direction (i.e., along c direction) induces significant variations in electronic as well as magnetic (especially MAE) behaviors of CrI3 monolayer.
© The Author(s), under exclusive licence to EDP Sciences, SIF and Springer-Verlag GmbH Germany, part of Springer Nature 2022