Longitudinal conductivity in Si/SiGe heterostructure at integer filling factors

Abstract

We have investigated temperature dependence of the longitudinal conductivity σxx at integer filling factors =i for Si/SiGe heterostructure in the quantum Hall effect regime. It is shown that for odd i, when the Fermi level EF is situated between the valley-split levels, σxx is determined by quantum corrections to conductivity caused by the electron-electron interaction: σxx(T) T. For even i, when EF is located between cyclotron-split levels or spin-split levels, σxx [-i/T] for i=6,10,12 and [-(T0i/T)]1/2 for i=4,8. For further decrease of T, all dependences σxx(T) tend to almost temperature-independent residual conductivity σi(0). A possible mechanism for σi(0) is discussed.

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