General information
Considering the spin-orbit interaction in two-dimensional transition metal dichalcogenides (TMDs), the influence of the substrate and external fields on the phonon-mediated spin relaxation is investigated for different relaxation pathways. TMD monolayers are interesting and promising materials for nanoelectronic and spintronic structures due to the controllability of the band structure, spin-valley phenomena, and strong spin-orbit interaction. The main goal of this project is to theoretically study spin relaxation in TMD monolayers by combining spin-orbit and electronphonon interactions to reveal the combined effects of substrates and external electric and magnetic fields on it. Considering these problems can help improve the characteristics of the spin devices created on the support of TMD monolayers, in which the phenomenon of spin relaxation is of central importance.
