Galvanomagnetic effects in p-type silicon application to electrically active impurity contents

We report on the electrical properties of Zn-doped (p-type) InP epilayers grown by metalorganic vapor-phase epitaxy. A detailed Hall transport model, accounting for the various scattering mechanisms in semiconductors and including valence-band degeneracy effects and inter- and intraband transitions, has been used for the analysis of the data. It provided excellent simultaneous agreement with the free-hole concentration and the mobility for Zn concentrations in the range of 7×1016–2×1018 cm−3. Those concentrations, for which the Hall factor was found close to 1, were confirmed by secondary-ion mass spectroscopy profiles. The binding energies of the samples were in the range of 42.7–26.2 meV and decreased with increasing Zn concentration. A simple approach, based on free-hole statistics, is proposed for the determination of the impurity concentrations of the lightly doped samples. An increased residual donor concentration, observed at a higher doping level, has been discussed.

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Electrical characteristics of zinc-doped indium phosphide

Benzaquen

Belache

Blaauw

et al. 1990

Journal of Applied Physics

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Determination of carrier densities in lightly doped silicon crystals from the Hall effect

et al. 1981

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Galvanomagnetic effects in p-type silicon application to electrically active impurity contents

Cited by 2 publications

References 10 publications

Electrical characteristics of zinc-doped indium phosphide

Electrical characteristics of zinc-doped indium phosphide

Determination of carrier densities in lightly doped silicon crystals from the Hall effect

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