Photoemission of Bi2Se3 with circularly polarized light: Probe of spin polarization or means for spin manipulation?

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Abstract

Topological insulators are characterized by Dirac-cone surface states with electron spins locked perpendicular to their linear momenta. Recent theoretical and experimental work implied that this specific spin texture should enable control of photoelectron spins by circularly polarized light. However, these reports questioned the so far accepted interpretation of spin-resolved photoelectron spectroscopy.We solve this puzzle and show that vacuum ultraviolet photons (50-70 eV) with linear or circular polarization indeed probe the initial-state spin texture of Bi2Se3 while circularly polarized 6-eV low-energy photons flip the electron spins out of plane and reverse their spin polarization, with its sign determined by the light helicity. Our photoemission calculations, taking into account the interplay between the varying probing depth, dipole-selection rules, and spin-dependent scattering effects involving initial and final states, explain these findings and reveal proper conditions for light-induced spin manipulation. Our results pave the way for future applications of topological insulators in optospintronic devices.

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Sánchez-Barriga, J., Varykhalov, A., Braun, J., Xu, S. Y., Alidoust, N., Kornilov, O., … Rader, O. (2014). Photoemission of Bi2Se3 with circularly polarized light: Probe of spin polarization or means for spin manipulation? Physical Review X, 4(1). https://doi.org/10.1103/PhysRevX.4.011046

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