Add to ORKGThe role of isovalent dopants in the high‐temperature deformation of GaAs has been studied in the temperature range 500–1150 °C. Additions of In, Sb, and B increase the critical resolved shear stress for deformation at a given strain rate and result in lowering the dislocation density of as‐grown liquid‐encapsulated Czochralski GaAs crystals. Phosphorus, because of its minor influence on the lattice strain, shows little enhancement of the yield stress. These results are consistent with a solute hardening model, in which the solute atom surrounded tetrahedrally by four Ga or As atoms comprise the hardening cluster. Codoping with In and Si hardens GaAs, but codoping with Si is less effective than the isovalent solutes In, Sb, and B, and produ...
In this article, we exhibit the influence of doping on nanoindentation-induced incipient plasticity ...
Dislocation structures in In-doped and undoped GaAs single crystals deformed at 700-1100°C have been...
In this second part, the mechanical behaviour of elemental semiconductors (ESC) and III-V compounds ...
The role of isovalent dopants in the high‐temperature deformation of GaAs has been studied in the te...
Compressive deformation of undoped and In‐doped GaAs single crystals has been carried out in [001] a...
Compressive deformation of undoped and In‐doped GaAs single crystals has been carried out in [001] a...
Substantial solid‐solution strengthening of GaAs by In acting as InAs_4 units has recently been pred...
The addition of 1 % In to LEC GaAs has been reported to reduce the dislocation density in this mater...
The semiconductor industry has long been aware of the need to avoid deformation during bulk single-...
The semiconductor industry has long been aware of the need to avoid deformation during bulk single-...
Effect of silicon doping on the elastic–plastic transition of GaAs crystal is demonstrated by result...
The crystal quality improvement by electrical or isoelectronic doping of L.E.C. grown GaAs crystals ...
The crystal quality improvement by electrical or isoelectronic doping of L.E.C. grown GaAs crystals ...
The crystal quality improvement by electrical or isoelectronic doping of L.E.C. grown GaAs crystals ...
In this second part, the mechanical behaviour of elemental semiconductors (ESC) and III-V compounds ...
In this article, we exhibit the influence of doping on nanoindentation-induced incipient plasticity ...
Dislocation structures in In-doped and undoped GaAs single crystals deformed at 700-1100°C have been...
In this second part, the mechanical behaviour of elemental semiconductors (ESC) and III-V compounds ...
The role of isovalent dopants in the high‐temperature deformation of GaAs has been studied in the te...
Compressive deformation of undoped and In‐doped GaAs single crystals has been carried out in [001] a...
Compressive deformation of undoped and In‐doped GaAs single crystals has been carried out in [001] a...
Substantial solid‐solution strengthening of GaAs by In acting as InAs_4 units has recently been pred...
The addition of 1 % In to LEC GaAs has been reported to reduce the dislocation density in this mater...
The semiconductor industry has long been aware of the need to avoid deformation during bulk single-...
The semiconductor industry has long been aware of the need to avoid deformation during bulk single-...
Effect of silicon doping on the elastic–plastic transition of GaAs crystal is demonstrated by result...
The crystal quality improvement by electrical or isoelectronic doping of L.E.C. grown GaAs crystals ...
The crystal quality improvement by electrical or isoelectronic doping of L.E.C. grown GaAs crystals ...
The crystal quality improvement by electrical or isoelectronic doping of L.E.C. grown GaAs crystals ...
In this second part, the mechanical behaviour of elemental semiconductors (ESC) and III-V compounds ...
In this article, we exhibit the influence of doping on nanoindentation-induced incipient plasticity ...
Dislocation structures in In-doped and undoped GaAs single crystals deformed at 700-1100°C have been...
In this second part, the mechanical behaviour of elemental semiconductors (ESC) and III-V compounds ...