Hydrogenation of GaAs1?xNx and GaP1?xNx epilayers grown on GaAs(001) and GaP(001) surfaces, respectively, is known to passivate the electronic activity of nitrogen through the formation of specific nitrogen-hydrogen complexes. The same epilayers also undergo a strain reversal from tensile (as grown) to compressive (fully hydrogenated). The authors show that the extent of strain reversal is determined exclusively by the nitrogen concentration. By performing in situ high resolution x-ray diffraction measurements during annealing and photoluminescence studies, the authors demonstrate that the lattice properties of fully hydrogenated GaAs1?xNx are ruled by a H complex, which is different and less stable than that responsible for electronic pass...
We have investigated the structure of nitrogen-hydrogen complexes in GaAs1−yNy and InxGa1ͨ...
We have investigated the structure of nitrogen-hydrogen complexes in GaAs1−yNy and InxGa1ͨ...
The addition of a small percent of nitrogen to GaAs causes a large reduction of the band gap energy ...
Hydrogenation of GaAs1-xNx and GaP1-xNx epilayers grown on GaAs(001) and GaP(001) surfaces, respecti...
By means of high resolution x-ray diffraction and photoluminescence measurements we demonstrate that...
By means of high resolution x-ray diffraction and photo luminescence measurements we demonstrate tha...
Deuterium (hydrogen) incorporation in dilute nitrides (e.g., GaAsN and GaPN) modifies dramatically t...
Deuterium (hydrogen) incorporation in dilute nitrides (e.g., GaAsN and GaPN) modifies dramatically t...
Deuterium (hydrogen) incorporation in dilute nitrides (e.g., GaAsN and GaPN) modifies dramatically t...
Deuterium (hydrogen) incorporation in dilute nitrides (e.g., GaAsN and GaPN) modifies dramatically t...
Deuterium hydrogen incorporation in dilute nitrides e.g., GaAsN and GaPN modifies dramatically the c...
The addition of a small percent of nitrogen to GaAs causes a large reduction of the band gap energy ...
The addition of a small percent of nitrogen to GaAs causes a large reduction of the band gap energy ...
The addition of a small percent of nitrogen to GaAs causes a large reduction of the band gap energy ...
In dilute nitrides, such as GaAsN, hydrogen-induced passivation of the electronic activity of N atom...
We have investigated the structure of nitrogen-hydrogen complexes in GaAs1−yNy and InxGa1ͨ...
We have investigated the structure of nitrogen-hydrogen complexes in GaAs1−yNy and InxGa1ͨ...
The addition of a small percent of nitrogen to GaAs causes a large reduction of the band gap energy ...
Hydrogenation of GaAs1-xNx and GaP1-xNx epilayers grown on GaAs(001) and GaP(001) surfaces, respecti...
By means of high resolution x-ray diffraction and photoluminescence measurements we demonstrate that...
By means of high resolution x-ray diffraction and photo luminescence measurements we demonstrate tha...
Deuterium (hydrogen) incorporation in dilute nitrides (e.g., GaAsN and GaPN) modifies dramatically t...
Deuterium (hydrogen) incorporation in dilute nitrides (e.g., GaAsN and GaPN) modifies dramatically t...
Deuterium (hydrogen) incorporation in dilute nitrides (e.g., GaAsN and GaPN) modifies dramatically t...
Deuterium (hydrogen) incorporation in dilute nitrides (e.g., GaAsN and GaPN) modifies dramatically t...
Deuterium hydrogen incorporation in dilute nitrides e.g., GaAsN and GaPN modifies dramatically the c...
The addition of a small percent of nitrogen to GaAs causes a large reduction of the band gap energy ...
The addition of a small percent of nitrogen to GaAs causes a large reduction of the band gap energy ...
The addition of a small percent of nitrogen to GaAs causes a large reduction of the band gap energy ...
In dilute nitrides, such as GaAsN, hydrogen-induced passivation of the electronic activity of N atom...
We have investigated the structure of nitrogen-hydrogen complexes in GaAs1−yNy and InxGa1ͨ...
We have investigated the structure of nitrogen-hydrogen complexes in GaAs1−yNy and InxGa1ͨ...
The addition of a small percent of nitrogen to GaAs causes a large reduction of the band gap energy ...