R. A. A. Kubiak scite author profile

We have used anodization techniques to process porous surface regions in p-type Czochralski Si and in p-type Sio,ssGe,-,,s p e itaxial layers grown by molecular beam epitaxy. The SiGe layers were unrelaxed before processing. We have observed strong near-infrared and visible light emission from both systems. Analysis of the radiative and nonradiative recombination processes indicate that the emission is consistent with the decay of excitons localized in structures of one or zero dimensions.

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Scattering mechanisms affecting hole transport in remote-doped Si/SiGe heterostructures

Emeleus

Whall

Smith

et al. 1993

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Boron modulation-doped Si/SiGe heterojunctions have been grown by molecular beam epitaxy. The two-dimensional hole gas formed along the heterojunction, just inside the alloy, has a sheet density in the range 2–5×1011 cm−2 and a typical mobility at 5 K of 2000 cm2 V−1 s−1. An explanation for the magnitude of the mobility is sought by considering likely scattering mechanisms, namely those due to remote impurities, interface roughness, alloy disorder, and interface impurities. A self-consistent model is used to determine the sheet density in terms of structural and energy parameters and dopant concentrations in the heterostructure. It is shown that the presence of negatively charged impurities at the heterojunction provides the basis for a consistent interpretation of the experimental results.

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Study of NiO/Ni(100) structural changes under the influence of ion irradiation at different temperatures

1994

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On the practical applications of MBE surface phase diagrams

Newstead

Kubiak²,

Parker

1987

Journal of Crystal Growth

102

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R. A. A. Kubiak

Evidence for quantum confinement in the photoluminescence of porous Si and SiGe

Scattering mechanisms affecting hole transport in remote-doped Si/SiGe heterostructures

Study of NiO/Ni(100) structural changes under the influence of ion irradiation at different temperatures

On the practical applications of MBE surface phase diagrams

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