Investigation of the contribution of the edge states in the conductivity of the graphene irradiated with high-energy heavy ions

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Journal Nonlinear World №2 for 2014 г.

Article in number:

Keywords: graphene edge states

Authors:

A.V. Frolov - Post-graduate Student, MPTI; Engineer, Kotel-nikov Institute of Radio Engineering and Electronics Russian Academy of Sciences. E-mail:fralek@mail.ru
Yu.I. Latyshev - Dr.Sc. (Phys.-Math.), Professor, Senior Researcher, Kotel-nikov Institute of Radio Engineering and Electronics Russian Academy of Sciences. E-mail:yurilatyshev@yahoo.com
V.A. Volkov - Dr.Sc. (Phys.-Math.), Professor, Leading Researcher, Kotel-nikov Institute of Radio Engineering and Electronics Russian Academy of Sciences
A.P. Orlov - Junior Researcher, Kotel-nikov Institute of Radio Engineering and Electronics Russian Academy of Sciences
V.A. Skuratov - Dr. Sc. (Phys.-Math.), Professor, UINR

Abstract:

The first study of transport properties of heavy-ion irradiated graphene has been made. On the dependence of the electric resistance R on the position of the Fermi level the structure of peaks has been revealed. The origin of peaks has been explained by the theory of orbital quantization of edge states in graphene.

Pages: 8-9

References

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Novoselov K.S., Geim A.K., Morozov S.V., et. al. Electric Field Effect in Atomically Thin Carbon Films // Science. 2004. V. 306. P. 666.
Enaldiev V.V., Volkov V.A. Grafenovaya antitochka v magnitnom pole // Nelinejny'j mir. 2011. № 9. S. 27-28.