Add to ORKGThe lateral coupling of waveguiding structures in both [011] and [011] direc-tions is studied using embedded selective area epitaxy by Chemical Beam Epitaxy. All growth steps are carried out under the same growth conditions on (100) lnP substrates misoriented by 0.5 towards (111)B. Both planar and selectively grown material exhibits bright luminescence and narrow PL line widths (8 meV FWHM at 4K), up to the lateral junction. Moreover, no degradation of the original mate-rial properties is observed after regrowth. SEM images show very flat layers and excellent lateral coupling for all four types of junctions. After reactive ion etching of waveguide ridges, the optical losses have been determined using a Fabry-Perot setup at 1530 nm (TE pola...
Oxide-free InGaAlAs waveguides have been grown on the InP substrates patterned with pairs of SiO2 ma...
Growth mechanism of InGaAlAs waveguides by narrow stripe selective MOVPE has been studied. Both the ...
III–V semiconductor multi-quantum-well nanowires (MQW NWs) via selective-area epitaxy (SAE) is of gr...
The lateral coupling of waveguiding structures in both and directions is studied using embedded sele...
The lateral coupling of waveguiding structures in both [0 1 1] and [0 1] directions is studied using...
In this thesis growth on patterned substrates has been studied for the lateral bandgap control of th...
Selective metal organic molecular beam epitaxy regrowth of InP/GaInAsP passive optical waveguide str...
The narrow stripe selective growth of the InGaAlAs bulk waveguides and InGaAlAs MQW waveguides was f...
We have fabricated optical waveguide using intermixing of InGaAs/InGaAsP multi-quantum well (MQW) st...
The authors report on the optical properties of 3-fold stacked InGaAs sidewall quantum wires (QWires...
InP photonic circuits are becoming increasingly complex and require different layer-stacks for diffe...
Abstract—Using the selective intermixing of an InGaAs–In-GaAsP multiquantum-well (MQW) structure, a ...
The fabrication of advanced undoped and semi-insulating optical waveguides to be implemented in inte...
We investigated the optical and structural properties of lattice-matched InGaAs/InP quantum wells gr...
(In,Ga)As sidewall quantum wires (QWires) are realized by chemical beam epitaxy along [01-1] mesa st...
Oxide-free InGaAlAs waveguides have been grown on the InP substrates patterned with pairs of SiO2 ma...
Growth mechanism of InGaAlAs waveguides by narrow stripe selective MOVPE has been studied. Both the ...
III–V semiconductor multi-quantum-well nanowires (MQW NWs) via selective-area epitaxy (SAE) is of gr...
The lateral coupling of waveguiding structures in both and directions is studied using embedded sele...
The lateral coupling of waveguiding structures in both [0 1 1] and [0 1] directions is studied using...
In this thesis growth on patterned substrates has been studied for the lateral bandgap control of th...
Selective metal organic molecular beam epitaxy regrowth of InP/GaInAsP passive optical waveguide str...
The narrow stripe selective growth of the InGaAlAs bulk waveguides and InGaAlAs MQW waveguides was f...
We have fabricated optical waveguide using intermixing of InGaAs/InGaAsP multi-quantum well (MQW) st...
The authors report on the optical properties of 3-fold stacked InGaAs sidewall quantum wires (QWires...
InP photonic circuits are becoming increasingly complex and require different layer-stacks for diffe...
Abstract—Using the selective intermixing of an InGaAs–In-GaAsP multiquantum-well (MQW) structure, a ...
The fabrication of advanced undoped and semi-insulating optical waveguides to be implemented in inte...
We investigated the optical and structural properties of lattice-matched InGaAs/InP quantum wells gr...
(In,Ga)As sidewall quantum wires (QWires) are realized by chemical beam epitaxy along [01-1] mesa st...
Oxide-free InGaAlAs waveguides have been grown on the InP substrates patterned with pairs of SiO2 ma...
Growth mechanism of InGaAlAs waveguides by narrow stripe selective MOVPE has been studied. Both the ...
III–V semiconductor multi-quantum-well nanowires (MQW NWs) via selective-area epitaxy (SAE) is of gr...