Density dependence of the excitation gaps in an undoped Si/SiGe double-quantum-well heterostructure

Abstract

We report low-temperature magneto-transport measurements of an undoped Si/SiGe asymmetric double quantum well heterostructure. The density in both layers is tuned independently utilizing a top and a bottom gate, allowing the investigation of quantum wells at both imbalanced and matched densities. Integer quantum Hall states at total filling factor T = 1 and T = 2 are observed in both density regimes, and the evolution of their excitation gaps is reported as a function of density. The T = 1 gap evolution departs from the behavior generally observed for valley splitting in the single layer regime. Furthermore, by comparing the T = 2 gap to the single particle tunneling energy, SAS, obtained from Schr\"odinger-Poisson (SP) simulations, evidence for the onset of spontaneous inter-layer coherence (SIC) is observed for a relative filling fraction imbalance smaller than 50\%

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