Intervalley mixing of interface excitons at lateral heterojunctions

Abstract

mediawiki-texvc We demonstrate that the low symmetry of armchair lateral heterojunction between transition metal dichalcogenide monolayers allows for the mixing of K+ and K- valleys. From the tight binding model we estimate the strength of the valley coupling to be of the order of 0.2 eV· for typical heteropairs. We show that the valley mixing gives rise to the in-plane g-factor of localized electrons leading to the spin precession in the in-plane magnetic field. We further study the effects of the valley mixing on the fine structure and dynamics of excitons at type-II lateral heterojunctions. We find that the interplay of the valley mixing and long-range exchange interaction leads to the linear polarization of exciton photoluminescence along the armchair heterojunction with the degree of polarization up to 1/3 under unpolarized excitation. Application of the in-plane magnetic field of the order of 10-100 mT in any direction leads to the depolarization of the photoluminescence.