Spin texture tunability in Mn1-xGexBi2Te4 through varying Ge Concentration

Abstract

The spin-resolved dispersion dependencies for the topological insulator Mn1-xGexBi2Te4 in the K K' path of the Brillouin zone were studied by spin- and angle-resolved photoemission spectroscopy using laser radiation (Laser Spin-ARPES) with variation of the concentration of substitutional Ge atoms (x from 0.1 to 0.8) for in-plane (sx) and out-of-plane (sz) spin orientation. The formation of Rashba-like states is shown, which shift to lower energies with increasing Ge concentration. In the region of Ge concentrations from 50% to 75%, the contribution of these states to the formed spin-dependent dispersions becomes predominant. A pronounced in-plane (sy) spin polarization, asymmetric for opposite k directions, is revealed for the Dirac cone states, while the Rashba-like states exhibit a pronounced asymmetry in both in-plane (sy) and out-of-plane (sz) spin polarizations. Theoretical calculations confirmed the asymmetric polarization of the Rashba-like states formed in the K K' path of the BZ, simultaneously for in-plane and out-of-plane spin orientation. Constant energy maps for Rashba-like states show a pronounced sz spin component along the K direction, with a sign change as the contour crosses the M direction. The observed spin polarization can influence the development of spin devices based on magnetic topological insulators.

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