Add to ORKGVapor phase epitaxial gallium arsenide (GaAs) layers, with lower compensation ratios than any reported heretofore, have been reproducibly grown by the Ga/H2/AsCl3 method. One of these samples has been studied extensively by electrical measurements and shows an acceptor concentration of (2.0 ± 0.7)X1013 cm-3 , and a compensation rate of NA/ND = 0.06 ± 0.02. These numbers are supported by magnetophotothermal spectroscopy and photoluminescence measurements. The preparation involves growth on [211A] substrates, and a pregrowth bakeout of the Ga source, which results in a significantly lower Zn acceptor concentration in the layer. These results have important implications for various compensation mechanisms which have been proposed for GaAs
High-purity epitaxial ayers of n-type gall ium arsenide have been grown by vapor deposition, using t...
A new GaAs vapor-phase epitaxial (VPE) technique using trimethylgallium (TMG) and arsenic trichlorid...
Gallium arsenide and indium arsenide layers have been grown by atomic layer epitaxy (ALE) using gall...
Vapor phase epitaxial gallium arsenide (GaAs) layers, with lower compensation ratios than any report...
Vapor phase epitaxial gallium arsenide (GaAs) layers, with lower compensation ratios than any report...
Recently we have reproducibly grown vapor-phase epitaxial GaAs, with less than 10% compensation, in ...
Recently we have reproducibly grown vapor-phase epitaxial GaAs, with less than 10% compensation, in ...
Recently we have reproducibly grown vapor-phase epitaxial GaAs, with less than 10% compensation, in ...
GaAs epitaxial layers with low electron concentrations were obtained from an alkylgall ium and arsin...
In this work, low temperature growth of GaAs epitaxial layers on Ge substrates by metalorganic vapor...
In this work, low temperature growth of GaAs epitaxial layers on Ge substrates by metalorganic vapor...
Gallium arsenide and indium arsenide layers have been grown by the Atomic Layer Epitaxy method (ALE)...
ZnS layers grown on GaAs and GaP substrates at 600~700 \C\ by vapor phase epitaxy were compared by s...
ZnS layers grown on GaAs and GaP substrates at 600~700 \C\ by vapor phase epitaxy were compared by s...
Gallium arsenide and indium arsenide layers have been grown by the Atomic Layer Epitaxy method (ALE)...
High-purity epitaxial ayers of n-type gall ium arsenide have been grown by vapor deposition, using t...
A new GaAs vapor-phase epitaxial (VPE) technique using trimethylgallium (TMG) and arsenic trichlorid...
Gallium arsenide and indium arsenide layers have been grown by atomic layer epitaxy (ALE) using gall...
Vapor phase epitaxial gallium arsenide (GaAs) layers, with lower compensation ratios than any report...
Vapor phase epitaxial gallium arsenide (GaAs) layers, with lower compensation ratios than any report...
Recently we have reproducibly grown vapor-phase epitaxial GaAs, with less than 10% compensation, in ...
Recently we have reproducibly grown vapor-phase epitaxial GaAs, with less than 10% compensation, in ...
Recently we have reproducibly grown vapor-phase epitaxial GaAs, with less than 10% compensation, in ...
GaAs epitaxial layers with low electron concentrations were obtained from an alkylgall ium and arsin...
In this work, low temperature growth of GaAs epitaxial layers on Ge substrates by metalorganic vapor...
In this work, low temperature growth of GaAs epitaxial layers on Ge substrates by metalorganic vapor...
Gallium arsenide and indium arsenide layers have been grown by the Atomic Layer Epitaxy method (ALE)...
ZnS layers grown on GaAs and GaP substrates at 600~700 \C\ by vapor phase epitaxy were compared by s...
ZnS layers grown on GaAs and GaP substrates at 600~700 \C\ by vapor phase epitaxy were compared by s...
Gallium arsenide and indium arsenide layers have been grown by the Atomic Layer Epitaxy method (ALE)...
High-purity epitaxial ayers of n-type gall ium arsenide have been grown by vapor deposition, using t...
A new GaAs vapor-phase epitaxial (VPE) technique using trimethylgallium (TMG) and arsenic trichlorid...
Gallium arsenide and indium arsenide layers have been grown by atomic layer epitaxy (ALE) using gall...