Spin-resolved transport properties in monolayer phosphorene superlattice

Abstract

The transmission probability and spin-polarization in the exposure of the exchange field for the Phosphorene superlattice are investigated by placing a ferromagnetic insulator over the layer of phosphorene at the barrier area based on the transfer matrix. In addition, the results of transmission probability in the exposure of the exchange field for phosphorene superlattice have compared with results for a single barrier. Tuning the barrier width, the transmission probability for phosphorene superlattice can reach one. Furthermore, the full transmission probability has occurred for the zero incoming angles by raising the barrier numbers, whereas the transmission probability for the zero incoming angles has been low in one barrier. Adding the barrier number, the perfect transmission probability and 100% spin polarization have occurred for more number of incident energies. As well, the perfect transmission probability has happened at the smaller incident energies through raising the barrier number. Furthermore, the best results for the perfect transmission probability and 100% spin-polarization for the system have occurred in twenty barriers that these results can be utilized in the modeling spintronic devices. Besides, by extending the separation distance between the two barriers, the number of transmission probability fluctuations has been raised.