Transverse "resistance overshoot" in a Si/SiGe two-dimensional electron gas in the quantum Hall effect regime
Abstract
We investigate the peculiarities of the "overshoot" phenomena in the transverse Hall resistance Rxy in Si/SiGe. Near the low magnetic field end of the quantum Hall effect plateaus, when the filling factor approaches an integer i, Rxy overshoots the normal plateau value h/ie2. However, if magnetic field B increases further, Rxy decreases to its normal value. It is shown that in the investigated sample n-Si/Si0.7Ge0.3, overshoots exist for almost all . Existence of overshoot in Rxy observed in different materials and for different , where splitting of the adjacent Landau bands has different character, hints at the common origin of this effect. Comparison of the experimental curves Rxy() for = 3 and = 5 with and without overshoot showed that this effect exist in the whole interval between plateaus, not only in the region where Rxy exceeds the normal plateau value.
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