Add to ORKGThe vertical structure of AlGaAs/GaAs epitaxial layer systems for micro- and optoelectronic device fabrication has been studied by selective etching combined with AFM imaging. Dark etching and photoetching with Cr03-HF-H20 solutions were used to transform composition and doping variations into height differences of the cleaved (110) surface. The etching parameters (time, composition and supply of carriers by illumination) were optimized for accurate thickness determination by AFM. The measurements were corroborated by comparison with cross-sectional TEM mapping. The dependence of the etching rate on the composition and the occurence of small, but measurable height variations without any etching is discussed
We present the effects of the photo-assisted (532 nm) semiconductor dissolution on sidewall profile ...
Real time spectroscopic ellipsometry (RTSE) was used to control the etch depth into a semiconductor ...
Epitaxial layers grown by molecular beam epitaxy on both silicon and gallium arsenide substrates are...
The cross-section of Ga(Al,In)As/GaAs heterostructures has been investigated by selective wet etchin...
EnIn this work we report the experimental results on AFM analysis of cleavages of multilayer GaAs...
International audienceResonant microelectromechanical systems are promising devices for real time an...
Front-side bulk micromachining based on 0.2 mu m GaAs HEMT MMIC technology is presented. Several che...
Many techniques for high-resolution surface analysis of semiconductors are known, such as optical-, ...
A study of photoelectrochemical etching of A1GaAs/GaAs multilayers under conditions of constant pote...
A novel method of sample cross-sectioning, beam-exit Ar-ion cross-sectional polishing, has been comb...
Our study involves the cleaning, wet etching, and characterization of GaAs wafer in the first semico...
We report a new application of atomic force microscopy (AFM) for process characterization of GaAs in...
The study involves the cleaning, wet etching and characterization of GaAs wafer in the first semicon...
CH3I vapor etching of masked and patterned GaAs substrates has been experimentally investigated. For...
A technology of anisotropic etching of GaAs (100) samples with two different types of geometric dis...
We present the effects of the photo-assisted (532 nm) semiconductor dissolution on sidewall profile ...
Real time spectroscopic ellipsometry (RTSE) was used to control the etch depth into a semiconductor ...
Epitaxial layers grown by molecular beam epitaxy on both silicon and gallium arsenide substrates are...
The cross-section of Ga(Al,In)As/GaAs heterostructures has been investigated by selective wet etchin...
EnIn this work we report the experimental results on AFM analysis of cleavages of multilayer GaAs...
International audienceResonant microelectromechanical systems are promising devices for real time an...
Front-side bulk micromachining based on 0.2 mu m GaAs HEMT MMIC technology is presented. Several che...
Many techniques for high-resolution surface analysis of semiconductors are known, such as optical-, ...
A study of photoelectrochemical etching of A1GaAs/GaAs multilayers under conditions of constant pote...
A novel method of sample cross-sectioning, beam-exit Ar-ion cross-sectional polishing, has been comb...
Our study involves the cleaning, wet etching, and characterization of GaAs wafer in the first semico...
We report a new application of atomic force microscopy (AFM) for process characterization of GaAs in...
The study involves the cleaning, wet etching and characterization of GaAs wafer in the first semicon...
CH3I vapor etching of masked and patterned GaAs substrates has been experimentally investigated. For...
A technology of anisotropic etching of GaAs (100) samples with two different types of geometric dis...
We present the effects of the photo-assisted (532 nm) semiconductor dissolution on sidewall profile ...
Real time spectroscopic ellipsometry (RTSE) was used to control the etch depth into a semiconductor ...
Epitaxial layers grown by molecular beam epitaxy on both silicon and gallium arsenide substrates are...