Topological Insulator State in Thin Bismuth Films Subjected to Plane Tensile Strain

E. V. Demidov; V. M. Grabov; V. A. Komarov; N. S. Kablukova; A. N. Krushel’nitskii

doi:10.1134/S106378341803006X

Topological Insulator State in Thin Bismuth Films Subjected to Plane Tensile Strain

Authors: Demidov E.V.¹, Grabov V.M.¹, Komarov V.A.¹, Kablukova N.S.¹, Krushel’nitskii A.N.¹
Affiliations:
1. Herzen State Pedagogical University
Issue: Vol 60, No 3 (2018)
Pages: 457-460
Section: 14th International Conference on the Physics of Dielectrics, St. Petersburg, May 29–June 2, 2017. Surface Physics, Thin Films
URL: https://bakhtiniada.ru/1063-7834/article/view/202243
DOI: https://doi.org/10.1134/S106378341803006X
ID: 202243

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Abstract

The results of experimental examination of galvanomagnetic properties of thin bismuth films subjected to plane tensile strain resulting from the difference in thermal expansion coefficients of the substrate material and bismuth are presented. The resistivity, the magnetoresistance, and the Hall coefficient were studied at temperatures ranging from 5 to 300 K in magnetic fields as strong as 0.65 T. Carrier densities were calculated. A considerable increase in carrier density in films thinner than 30 nm was observed. This suggests that surface states are more prominent in thin bismuth films on mica substrates, while the films themselves may exhibit the properties of a topological insulator.

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Topological Insulator State in Thin Bismuth Films Subjected to Plane Tensile Strain

Full Text

Abstract

About the authors

E. V. Demidov

V. M. Grabov

V. A. Komarov

N. S. Kablukova

A. N. Krushel’nitskii

Supplementary files