Quantum transport in sputtered, epitaxial Si/Si1−xGex heterostructures

Abstract

Radio–frequency magnetron sputter epitaxy was employed for the synthesis of n–type modulation doped Si/Si_1−xGe_x heterostructures. Si channels were grown coherently on sputtered, compositionally graded Si_1−xGe_x buffers of low defect density, and remotely doped with phosphorus by plasma assisted gas phase doping. Magnetotransport measurements on these films revealed Shubnikov–de Haas oscillations in the longitudinal and the integer quantum Hall effect in the transverse magnetoresistance, demonstrating the presence of a two–dimensional electron gas. At T=1.6 K and sheet densities of 10¹² cm⁻², electron mobilities as high as 15 800 cm²/V s give evidence of the excellent structural and electronic properties achievable by the sputter growth technique.