Analysis of the resistance in p-SiGe over a wide temperature range

Abrahams; Aleiner; Altshuler; Ando; Ando; D. Grützmacher; Das Sarma; Das Sarma; E.H. Hwang; Emeleus; G. Dehlinger; Gold; Gold; K. Ensslin; Kawamura; Maldague; S. Das Sarma; Senz; T. Heinzel; T. Ihn; U. Gennser; V. Senz; Whall

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Analysis of the resistance in p-SiGe over a wide temperature range

Authors: Abrahams
Aleiner
Altshuler
Ando
Ando
D. Grützmacher
Das Sarma
Das Sarma
E.H. Hwang
Emeleus
G. Dehlinger
Gold
Gold
K. Ensslin
Kawamura
Maldague
S. Das Sarma
Senz
T. Heinzel
T. Ihn
U. Gennser
V. Senz
Whall
Publication date: 17 July 2001
Publisher: 'Elsevier BV'
Doi

Abstract

The temperature dependence of a system exhibiting a `metal-insulator transition in two dimensions at zero magnetic field' (MIT) is studied up to 90K. Using a classical scattering model we are able to simulate the non-monotonic temperature dependence of the resistivity in the metallic high density regime. We show that the temperature dependence arises from a complex interplay of metallic and insulating contributions contained in the calculation of the scattering rate 1/\td(E,T), each dominating in a limited temperature range.Comment: 4 pages with 5 figure

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