Strain effect on circularly polarized electroluminescence in transition metal dichalcogenides
Sake Wang, M. Shoufie Ukhtary, Riichiro Saito
Abstract
Strain effect on circularly polarized electroluminescence (EL) is theoretically analyzed for a p-i-n junction of transition metal dichalcogenides. The electrically controllable circularly polarized EL without the strain effect is understood by valley polarization combined with the electron–hole asymmetry due to the trigonal warping effect in the valence band. The strain enhances circularly polarized EL more efficiently than the trigonal warping effect since the asymmetry occurs in the same direction as the direction of the applied electric field. The calculated result shows that the circular polarization in the strained MoS_{2} becomes 100% without losing the EL intensity.
Topics & Concepts
ElectroluminescenceCircular polarizationAsymmetryCondensed matter physicsImage warpingPhysicsTransition metalPolarization (electrochemistry)Materials scienceOpticsMagnetic fieldChemistryNanotechnologyQuantum mechanicsComputer scienceBiochemistryArtificial intelligenceLayer (electronics)Physical chemistryCatalysis2D Materials and ApplicationsPerovskite Materials and ApplicationsGraphene research and applications