Your search keyword '"Hendrik Bentmann"' showing total 4 results

1. Topological states induced by local structural modification of the polar BiTeI(0001) surface

Author

Sebastian Fiedler, Sergey V Eremeev, Vladimir A Golyashov, Andrey K Kaveev, Oleg E Tereshchenko, Konstantin A Kokh, Evgueni V Chulkov, Hendrik Bentmann, and Friedrich Reinert

Subjects

topological insulator, Rashba effect, spin–orbit interaction at surfaces, Science, Physics, QC1-999

Abstract

The layered polar semiconductor BiTeI exhibits large Rashba-type spin–orbit splittings in its bulk and surface electronic structure. Here we report an artificial structural modification near the surface of BiTeI(0001) induced by annealing in vacuum. Using scanning tunneling microscopy we show that the annealing-induced change in the near-surface stoichiometry results in a structural change from a non-centrosymmetric triple-layered to a quintuple-layered structure. The structural change gives rise to the emergence of topological surface states with helical spin texture as demonstrated by angle-resolved photoemission experiments and relativistic first-principles calculations. The results provide a way to modify the electronic structure of layered materials by a controlled manipulation of the atomic stacking sequences.

Published

2018

2. Defect and structural imperfection effects on the electronic properties of BiTeI surfaces

Author

Sebastian Fiedler, Lydia El-Kareh, Sergey V Eremeev, Oleg E Tereshchenko, Christoph Seibel, Peter Lutz, Konstantin A Kokh, Evgueni V Chulkov, Tatyana V Kuznetsova, Vladimir I Grebennikov, Hendrik Bentmann, Matthias Bode, and Friedrich Reinert

Subjects

electronic structure, spin–orbit coupling, surface morphology, semiconductor surfaces, 71.20.Nr, 71.70.Ej, Science, Physics, QC1-999

Abstract

The surface electronic structure of the narrow-gap seminconductor BiTeI exhibits a large Rashba-splitting which strongly depends on the surface termination. Here we report on a detailed investigation of the surface morphology and electronic properties of cleaved BiTeI single crystals by scanning tunneling microscopy, photoelectron spectroscopy (ARPES, XPS), electron diffraction (SPA-LEED) and density functional theory calculations. Our measurements confirm a previously reported coexistence of Te- and I-terminated surface areas originating from bulk stacking faults and find a characteristic length scale of ∼100 nm for these areas. We show that the two terminations exhibit distinct types of atomic defects in the surface and subsurface layers. For electronic states resided on the I terminations we observe an energy shift depending on the time after cleavage. This aging effect is successfully mimicked by depositon of Cs adatoms found to accumulate on top of the I terminations. As shown theoretically on a microscopic scale, this preferential adsorbing behaviour results from considerably different energetics and surface diffusion lengths at the two terminations. Our investigations provide insight into the importance of structural imperfections as well as intrinsic and extrinsic defects on the electronic properties of BiTeI surfaces and their temporal stability.

Published

2014

3. Enhancing and reducing the Rashba-splitting at surfaces by adsorbates: Na and Xe on Bi/Cu(111)

Author

Hendrik Bentmann and Friedrich Reinert

Subjects

Science, Physics, QC1-999

Abstract

The surface alloy Bi/Cu(111) shows a paradigmatic free-electron-like surface state with a very large Rashba-type spin–orbit splitting. Using angle-resolved photoemission we investigate how adsorbates of different chemical nature influence the size of the spin splitting in this system. We find that the adsorption of small amounts of monovalent Na atoms leads to an enhancement of the spin splitting while an overlayer of the closed-shell rare gas Xe causes a reduction. The latter result is in contrast to the Au(111) surface for which an increased splitting size after Xe-adsorption was observed. We discuss these experimental findings in terms of the characteristic differences of the surface state wave functions and their spatial deformation in the presence of different types of adsorbates. Our results provide insight into the complex interplay of atomic and interface potential gradients governing the Rashba effect.

Published

2013

4. Origin and manipulation of the Rashba splitting in surface alloys

Author

Gustav Bihlmayer, Frank Förster, Marco Grioni, Luca Moreschini, Eugene V. Chulkov, Friedrich Reinert, and Hendrik Bentmann

Subjects

Surface (mathematics), Condensed Matter::Materials Science, Materials science, Spintronics, X-ray photoelectron spectroscopy, Condensed matter physics, Field (physics), Electron doping, General Physics and Astronomy, Electronic structure, Spin (physics), Rashba effect

Abstract

A novel method is demonstrated to tailor the electronic structure of high-Z surface alloys showing a giant Rashba splitting by means of electron doping. This aims for new model systems to study unconvential spin topologies and for possible applications in the field of spintronics. We give new insights into the origin of the enhanced Rashba effect in the two specific alloys Bi/Cu(111) and Bi/Ag(111) employing angle-resolved photoelectron spectroscopy and first-principles calculations.

Published

2009