Strain-mediated ferromagnetism and low-field magnetic reversal in Co doped monolayer WS2

Jena, A.K. and Sahoo, A.K. and Mohanty, J. and et al, . (2022) Strain-mediated ferromagnetism and low-field magnetic reversal in Co doped monolayer WS2. Scientific Reports, 12 (1). pp. 1-12. ISSN 2045-2322

Text
s41598-022-06346-w.pdf - Published Version
Available under License Creative Commons Attribution.
Download (2MB)

Abstract

Strain-mediated magnetism in 2D materials and dilute magnetic semiconductors hold multi-functional applications for future nano-electronics. Herein, First principles calculations are employed to study the influence of biaxial strain on the magnetic properties of Co-doped monolayer WS2. The non-magnetic WS2 shows ferromagnetic signature upon Co doping due to spin polarization, which is further improved at low compressive (-2 %) and tensile (+2 %) strains. From the PDOS and spin density analysis, the opposite magnetic ordering is found to be favourable under the application of compressive and tensile strains. The double exchange interaction and p-d hybridization mechanisms make Co-doped WS2 a potential host for magnetism. More importantly, the competition between exchange and crystal field splittings, i.e. (Δ ex> Δ cfs), of the Co-atom play pivotal roles in deciding the values of the magnetic moments under applied strain. Micromagnetic simulation reveals, the ferromagnetic behavior calculated from DFT exhibits low-field magnetic reversal (190 Oe). Moreover, the spins of Co-doped WS2 are slightly tilted from the easy axis orientations showing slanted ferromagnetic hysteresis loop. The ferromagnetic nature of Co-doped WS2 suppresses beyond ±2% strain, which is reflected in terms of decrease in the coercivity in the micromagnetic simulation. The understanding of low-field magnetic reversal and spin orientations in Co-doped WS2 may pave the way for next-generation spintronics and straintronics applications. © 2022, The Author(s).

[error in script]

IITH Creators: