Terahertz emission from α-W/CoFe epitaxial spintronic emitters

Abstract

We report efficient terahertz (THz) generation in epitaxial α-W/Co60Fe40 spintronic emitters. Two types of emitters have been investigated; epitaxial α-W(110)/Co60Fe40(110) and α-W(001)/Co60Fe40(001) deposited on single crystalline Al2O3(1120) and MgO(001) substrates, respectively. First principle calculations of the electronic band structure at the W(001) surface reveal Dirac-type surface states, similar to that reported previously for the W(110) surface. The generated THz radiation is about 10\% larger for α-W(110)/Co60Fe40(110) grown on single crystalline Al2O3(1120), which is explained by the fact that the α-W(110)/Co60Fe40(110) interface for this emitter is more transparent to the spin current due to the presence of ngstr\" om-scale interface intermixing at the W/CoFe interface. Our results also reveal that the generation of THz radiation is larger when pumping with the laser light from the substrate side, which is explained by a larger part of the laser light due to interference effects in the film stack being absorbed in the ferromagnetic Co60Fe40 layer in this measurement configuration.