H. Iber scite author profile

Sn-doped InP wafers were etched by reactive ion beam etching (RIBE) using a gas mixture of N 2 /O 2 at ion energies varying from 100 to 600 eV. We investigated the radiation damage caused by RIBE using various techniques which are sensitive to the near-surface region. The optical and electrical properties of the damaged layer as a function of ion energy were studied by photoluminescence microscopy (PLM), photoluminescence spectroscopy, spectroscopic ellipsometry (SE) and electrochemical capacitance-voltage profiling. The electron channelling pattern technique (ECP) was used to examine the structural disorder. The observed radiation damage was attributed to the formation of phosphorus vacancies indicating preferential loss of phosphorus in the InP. We found optimum etching conditions at an ion energy of 400 eV representing the best trade-off between high etch rate and low radiation damage. The potential of PLM, SE and ECP as fast and non-destructive techniques for quality control in research as well as manufacturing is demonstrated.

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Characterization of thin buffer layers for strongly mismatched heteroepitaxy

Peiner¹,

Mo²,

Iber³

et al. 1996

Thin Solid Films

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High-quality In0.53Ga0.47As on exactly (001)-oriented Si grown by metal-organic vapour-phase epitaxy

Peiner

Wehmann

Iber

et al. 1997

Journal of Crystal Growth

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Sem-Based Characterization Techniques for Strongly Mismatched Heteroepitaxy

Peiner¹,

Mo²,

Iber³

et al. 1996

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H. Iber

The effect of dislocations on the optical absorption of heteroepitaxial InP and GaAs on Si

Characterization of surface damage in dry-etched InP

Characterization of thin buffer layers for strongly mismatched heteroepitaxy

High-quality In0.53Ga0.47As on exactly (001)-oriented Si grown by metal-organic vapour-phase epitaxy

Sem-Based Characterization Techniques for Strongly Mismatched Heteroepitaxy

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