Add to ORKGManganese was used as the dopant for p-type InGaAs layers grown on semi-insulating (Fe-doped) and n-type (Sn-doped) InP substrates. Optical, electrical (Hall) and SIMS measurements were used to characterize the layers. Mn-diffusion into the substrate (during the growth of In GaAs) was observed only when Fe-doped substrates were used. Quaternary layers of two compositions corresponding to wavelengths (energy gaps) of approximated 1.52 micrometers were successfully grown at a constant temperature of 640 C and InP was grown in the temperature range of 640 C to 655 C. A study of the effect of pulses on the growth velocity of InP indicated no significant change as long as the average applied current was kept constant. A system for depositing fil...
AbstractRecent successes by a Nottingham University group includes the growth of GaMnAs material wit...
While Zn, Be, C, and Mg have been commonly used as p-type dopants in GaAs, Mn has not due to reports...
[[abstract]]Using very-low-temperature molecular beam epitaxy growth techniques, an amorphous InGaP ...
During the period of this research grant, the process of liquid phase electroepitaxy (LPEE) was used...
[[abstract]]Epitaxial films of In0.53Ga0.47As lattice‐matched to InP substrates have been grown by m...
MnSb layers have been grown on InxGa1-xAs(1 1 1) A virtual substrates using molecular beam epitaxy (...
The heteroepitaxial growth of type-B ferromagnetic MnAs on InP and lattice matched In 0.53 Ga 0.47 A...
InP and InGaAs epitaxial layers on InP substrates using molecular beam epitaxy (MBE) have been studi...
InP based compound semiconductor materials were grown and characterized using low pressure metalorga...
[[abstract]]lateral oxidation of an underlying Al0.98Ga0.02As layer to improve the material quality ...
Lattice matched InxGa1 - x As films were deposited on InP substrates using metalorganic molecular be...
MnSb layers have been grown on In x Ga 1 − x As(111)A virtual substrates using molecular beam epitax...
Acceptor doping of MBE grown Ga0.47In0.53As on InP:Fe substrates utilizing manganese is investigated...
[[abstract]]Transport properties of Sn‐doped Ga0.47In0.53As and Al0.48In0.52As epitaxial layers grow...
[[abstract]]Silicon‐doped n‐type Ga0.47In0.53As and Al0.48In0.52As epitaxial layers lattice matched ...
AbstractRecent successes by a Nottingham University group includes the growth of GaMnAs material wit...
While Zn, Be, C, and Mg have been commonly used as p-type dopants in GaAs, Mn has not due to reports...
[[abstract]]Using very-low-temperature molecular beam epitaxy growth techniques, an amorphous InGaP ...
During the period of this research grant, the process of liquid phase electroepitaxy (LPEE) was used...
[[abstract]]Epitaxial films of In0.53Ga0.47As lattice‐matched to InP substrates have been grown by m...
MnSb layers have been grown on InxGa1-xAs(1 1 1) A virtual substrates using molecular beam epitaxy (...
The heteroepitaxial growth of type-B ferromagnetic MnAs on InP and lattice matched In 0.53 Ga 0.47 A...
InP and InGaAs epitaxial layers on InP substrates using molecular beam epitaxy (MBE) have been studi...
InP based compound semiconductor materials were grown and characterized using low pressure metalorga...
[[abstract]]lateral oxidation of an underlying Al0.98Ga0.02As layer to improve the material quality ...
Lattice matched InxGa1 - x As films were deposited on InP substrates using metalorganic molecular be...
MnSb layers have been grown on In x Ga 1 − x As(111)A virtual substrates using molecular beam epitax...
Acceptor doping of MBE grown Ga0.47In0.53As on InP:Fe substrates utilizing manganese is investigated...
[[abstract]]Transport properties of Sn‐doped Ga0.47In0.53As and Al0.48In0.52As epitaxial layers grow...
[[abstract]]Silicon‐doped n‐type Ga0.47In0.53As and Al0.48In0.52As epitaxial layers lattice matched ...
AbstractRecent successes by a Nottingham University group includes the growth of GaMnAs material wit...
While Zn, Be, C, and Mg have been commonly used as p-type dopants in GaAs, Mn has not due to reports...
[[abstract]]Using very-low-temperature molecular beam epitaxy growth techniques, an amorphous InGaP ...