C. R. Elliott scite author profile

The characteristics of a new anodic dissolution process for sectioning and removing damage from monocrystalline normalGaAs and normalGaSb are described. Dissolution proceeds in the presence of a solid anodic film, which limits local variations in etch rate, so the flatness and microtopography of initially smooth surfaces are preserved. The high anodic efficiency permits accurate monitoring of material removal. Etch rates may be varied from below 0.01 μm hr−1to over 10 μm hr−1 on normalGaAs and to 4 μm hr−1 on normalGaSb . Applications discussed include epitaxial layer thickness trimming and preparation of substrates for epitaxy and samples for crystallographic defect studies.

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Near Infrared Absorption Spectra of Silica: OH Overtones

Elliott

Newns

1971

Appl Spectrosc

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The Detection of Structural Defects in Indium Phosphide by Electrochemical Etching

Elliott¹,

Regnault²

1981

J. Electrochem. Soc.

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C. R. Elliott

The electrochemical characterization of n-type gallium arsenide

Electrochemical carrier concentration profiling in silicon

Electrochemical Sectioning and Surface Finishing of GaAs and GaSb

Near Infrared Absorption Spectra of Silica: OH Overtones

The Detection of Structural Defects in Indium Phosphide by Electrochemical Etching

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