Direct Optical Coupling to an Unoccupied Dirac Surface State in the Topological Insulator Bi$_2$Se$_3$

Alexander F. Kemper; Felix T. Schmitt; Ian R. Fisher; James G. Analytis; J.J. Lee; Jonathan A. Sobota; Patrick S. Kirchmann; Robert G. Moore; Shuolong Yang; Thomas P. Devereaux

arxiv: 1309.1405 · v1 · pith:Z4C27AFFnew · submitted 2013-09-05 · ❄️ cond-mat.mtrl-sci

Direct Optical Coupling to an Unoccupied Dirac Surface State in the Topological Insulator Bi₂Se₃

Jonathan A. Sobota , Shuolong Yang , Alexander F. Kemper , J.J. Lee , Felix T. Schmitt , Wei Li , Robert G. Moore , James G. Analytis

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Ian R. Fisher Patrick S. Kirchmann Thomas P. Devereaux Zhi-Xun Shen

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classification ❄️ cond-mat.mtrl-sci

keywords statesurfacestructuretopologicalunoccupiedbandcouplingdirac

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We characterize the occupied and unoccupied electronic structure of the topological insulator Bi$_2$Se$_3$ by one-photon and two-photon angle-resolved photoemission spectroscopy and slab band structure calculations. We reveal a second, unoccupied Dirac surface state with similar electronic structure and physical origin to the well-known topological surface state. This state is energetically located 1.5 eV above the conduction band, which permits it to be directly excited by the output of a Ti:Sapphire laser. This discovery demonstrates the feasibility of direct ultrafast optical coupling to a topologically protected, spin-textured surface state.

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Direct Optical Coupling to an Unoccupied Dirac Surface State in the Topological Insulator Bi₂Se₃

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