Add to ORKGThe fabrication of advanced undoped and semi-insulating optical waveguides to be implemented in integrated photonic ICs on InP is demonstrated on the basis of the metal organic molecular beam epitaxy growth technique. The optimised deposition of waveguide layer structures of high crystalline and optical quality resulted in optical losses as low as 0.7/0.9 dB/cm (TE/TM polarisation) at lambda =1.55 mu m. Implementation of a thin InP marker between the slab and the rib served to control rib formation during dry etching. Doping with iron using an elemental source was applied for semi-insulating behaviour of the waveguide devices. Selective area deposition of the waveguide layer structure at a growth temperature of 485 degrees C around a masked...
In a close cooperation with our partners quaternary (GaIn)(AsP) laser structures were grown with MOM...
The authors have fabricated GaInAsP/InP rib waveguides with lengths of up to 7 mm and widths between...
We investigate molecular beam epitaxy (MBE) growth conditions of micrometers-thick In0.52Al0.48As de...
The potential of metal organic MBE for selective deposition of InP/GaInAsP passive optical waveguide...
Basic developmental steps are outlined for the application of metal organic molecular beam epitaxy a...
Selective metal organic molecular beam epitaxy regrowth of InP/GaInAsP passive optical waveguide str...
Iron doping of InP and GaInAsP( lambda g=1.05 mu m) layers grown by metalorganic molecular beam epit...
Iron doping using elemental source material evaporated from a conventional effusion cell was applied...
Selective MOMBE growth of InP-GaInAsP optical waveguide structures by MOMBE was studied for butt cou...
Growth of GaInAsP device structures by MOMBE had to be optimized, especially for selective area epit...
p-i-n photodiodes with integrated optical waveguides were successfully fabricated in the GaInAsP/InP...
Butt-joint integration of InP based laser structures with monomode polymer waveguides was studied. U...
The ability to integrate multiple photonic devices on a single substrate has turned out to be very ...
The integration of two-dimensional III-V InP-based photonic crystal and silicon wire waveguides is a...
High quality butt joints were fabricated in the InGaAsP system using a Selective Area Chemical Beam ...
In a close cooperation with our partners quaternary (GaIn)(AsP) laser structures were grown with MOM...
The authors have fabricated GaInAsP/InP rib waveguides with lengths of up to 7 mm and widths between...
We investigate molecular beam epitaxy (MBE) growth conditions of micrometers-thick In0.52Al0.48As de...
The potential of metal organic MBE for selective deposition of InP/GaInAsP passive optical waveguide...
Basic developmental steps are outlined for the application of metal organic molecular beam epitaxy a...
Selective metal organic molecular beam epitaxy regrowth of InP/GaInAsP passive optical waveguide str...
Iron doping of InP and GaInAsP( lambda g=1.05 mu m) layers grown by metalorganic molecular beam epit...
Iron doping using elemental source material evaporated from a conventional effusion cell was applied...
Selective MOMBE growth of InP-GaInAsP optical waveguide structures by MOMBE was studied for butt cou...
Growth of GaInAsP device structures by MOMBE had to be optimized, especially for selective area epit...
p-i-n photodiodes with integrated optical waveguides were successfully fabricated in the GaInAsP/InP...
Butt-joint integration of InP based laser structures with monomode polymer waveguides was studied. U...
The ability to integrate multiple photonic devices on a single substrate has turned out to be very ...
The integration of two-dimensional III-V InP-based photonic crystal and silicon wire waveguides is a...
High quality butt joints were fabricated in the InGaAsP system using a Selective Area Chemical Beam ...
In a close cooperation with our partners quaternary (GaIn)(AsP) laser structures were grown with MOM...
The authors have fabricated GaInAsP/InP rib waveguides with lengths of up to 7 mm and widths between...
We investigate molecular beam epitaxy (MBE) growth conditions of micrometers-thick In0.52Al0.48As de...