Conductance Fluctuations Near the Two-Dimensional Metal-Insulator Transition

Abstract

Measurements of conductance G on short, wide, high-mobility Si-MOSFETs reveal both a two-dimensional metal-insulator transition (MIT) at moderate temperatures (1 <~ T < 4~K) and mesoscopic fluctuations of the conductance at low temperatures (T~ < 1~K). Both were studied as a function of chemical potential (carrier concentration ns) controlled by gate voltage (Vg) and magnetic field B near the MIT. Fourier analysis of the low temperature fluctuations reveals several fluctuation scales in Vg that vary non-monotonically near the MIT. At higher temperatures, G(Vg,B) is similar to large FETs and exhibits a MIT. All of the observations support the suggestion that the MIT is driven by Coulomb interactions among the carriers.

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