Spin-Polarized Quantum Well States on Bi$_{2-x}$Fe$_x$Se$_3$

Amit Kanigel; Anjan Soumyanarayanan; Can-Li Song; Ekaterina Pomjakushina; Jennifer E. Hoffman; Kouji Segawa; Michael M. Yee; Yang He; Yoichi Ando; Zaher Salman

arxiv: 1501.05598 · v1 · pith:NW7DSZDQnew · submitted 2015-01-22 · ❄️ cond-mat.mtrl-sci · cond-mat.mes-hall· cond-mat.str-el

Spin-Polarized Quantum Well States on Bi_(2-x)Fe_xSe₃

Michael M. Yee , Z.-H. Zhu , Anjan Soumyanarayanan , Yang He , Can-Li Song , Ekaterina Pomjakushina , Zaher Salman , Amit Kanigel

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Kouji Segawa Yoichi Ando Jennifer E. Hoffman

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classification ❄️ cond-mat.mtrl-sci cond-mat.mes-hallcond-mat.str-el

keywords statesquantumspin-polarizedsurfacetopologicalwellaboveallow

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Low temperature scanning tunneling microscopy is used to image the doped topological insulator Bi$_{2-x}$Fe$_x$Se$_3$. Interstitial Fe defects allow the detection of quasiparticle interference (QPI), and the reconstruction of the empty state band structure. Quantitative comparison between measured data and density functional theory calculations reveals the unexpected coexistence of quantum well states (QWS) with topological surface states (TSS) on the atomically clean surface of Bi$_{2-x}$Fe$_x$Se$_3$. Spectroscopic measurements quantify the breakdown of linear dispersion due to hexagonal warping. Nonetheless, both QWS and TSS remain spin-polarized and protected from backscattering to almost 1 eV above the Dirac point, suggesting their utility for spin-based applications.

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Spin-Polarized Quantum Well States on Bi_(2-x)Fe_xSe₃

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