Magnetotransport properties of a polarization-doped three-dimensional electron slab
Abstract
We present evidence of strong Shubnikov-de-Haas magnetoresistance oscillations in a polarization-doped degenerate three-dimensional electron slab in an AlxGa1-xN semiconductor system. The degenerate free carriers are generated by a novel technique by grading a polar alloy semiconductor with spatially changing polarization. Analysis of the magnetotransport data enables us to extract an effective mass of m=0.19 m0 and a quantum scattering time of τq= 0.3 ps. Analysis of scattering processes helps us extract an alloy scattering parameter for the AlxGa1-xN material system to be V0=1.8eV.
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