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Evolution of the fermi surface of a doped topological insulator with carrier concentration

In an ideal bulk topological-insulator (TI) conducting surface states protected by time reversal symmetry enfold an insulating crystal. However, the archetypical TI, Bi2Se3, is actually never insulating; it is in fact a relatively good metal. Nevertheless, it is the most studied system among all the TIs, mainly due to its simple band-structure and large spin-orbit gap. Recently it was shown that copper intercalated Bi2Se3 becomes superconducting and it was suggested as a realization of a topological superconductor (TSC). Here we use a combination of techniques that are sensitive to the shape of the Fermi surface (FS): the Shubnikov-de Haas (SdH) effect and angle resolved photoemission spectroscopy (ARPES) to study the evolution of the FS shape with carrier concentration, n. We find that as n increases, the FS becomes 2D-like. These results are of crucial importance for understanding the superconducting properties of CuxBi2Se3.

preprint2013arXivOpen access
E. LahoudE. ManivM. PetrushevskyM. NaamnehA. RibakS. WiedmannL. PetacciaK. B. ChashkaY. DaganA. Kanigel
cond-mat.mes-hallcond-mat.str-el
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Open access10 authors2 topics
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E. LahoudE. ManivM. PetrushevskyM. NaamnehA. RibakS. WiedmannL. PetacciaK. B. ChashkaY. DaganA. Kanigel

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