Silicon oxynitride (SiON) is a highly attractive material for integrated optics, due to its excellent properties such as high transparency, adjustable refractive index and good stability. In general, the growth of SiON layers by plasma enhanced chemical vapor deposition (PECVD) is followed by a high temperature annealing step in order to remove hydrogen and to achieve low propagation losses in the 1.5-�?�m wavelength window. The high annealing temperature (>1100˚C) required for sufficient hydrogen removal induces, however, side effects like significant inter-layer diffusion and micro-cracks resulting in deterioration of the device performance. In this paper compositional and optical properties of as-deposited and annealed boron (B) and phos...
PECVD Phosphorus-doped silicon oxynitride layers (n=1.5) were depositedfrom N20, 2%SiHdN2, NH3 and 5...
PECVD Phosphorus-doped silicon oxynitride layers (n=1.5) were deposited from N2O, 2%SiH4/N2, NH3 and...
This work explores the technology for preparing low hydrogen-content silicon oxynitride film for int...
Silicon oxynitride (SiON) is a highly attractive material for integrated optics, due to its excellen...
In this work plasma enhanced chemical vapor deposition (PECVD) were adopted to achieve boron/phospho...
Boron phosphorus-doped silicon oxynitride layers for integrated optics applications have been deposi...
Silicon oxynitride (SiON) is a highly transparent amorphous material over a wide range of wavelength...
Plasma enhanced chemical vapor deposition phosphoros-doped silicon oxynitride (SiON) layers with a r...
This work reports a method for reducing hydrogen content in silicon oxynitride film for integrated o...
5 % B2H6/Ar and 5 % PH3/Ar were introduced to the plasma enhanced chemical vapor deposition process ...
5% $B_2H_6/Ar$ and 5% $PH_3/Ar$ were introduced to the plasma enhanced chemical vapor deposition pro...
Plasma enhanced chemical vapor deposition phosphoros-doped silicon oxynitride (SiON) layers with a r...
Phosphorus-doped silicon oxynitride layers (n = 1.48 – 1.59) have been deposited by a Plasma Enhance...
Silicon Oxynitride layers are grown from SiH4/N2, NH3 and N2O by Plasma Enhanced Chemical Vapor Depo...
PECVD Silicon Oxynitride (SiON) layers with different refractive indices (1.472-1.635) were grown an...
PECVD Phosphorus-doped silicon oxynitride layers (n=1.5) were depositedfrom N20, 2%SiHdN2, NH3 and 5...
PECVD Phosphorus-doped silicon oxynitride layers (n=1.5) were deposited from N2O, 2%SiH4/N2, NH3 and...
This work explores the technology for preparing low hydrogen-content silicon oxynitride film for int...
Silicon oxynitride (SiON) is a highly attractive material for integrated optics, due to its excellen...
In this work plasma enhanced chemical vapor deposition (PECVD) were adopted to achieve boron/phospho...
Boron phosphorus-doped silicon oxynitride layers for integrated optics applications have been deposi...
Silicon oxynitride (SiON) is a highly transparent amorphous material over a wide range of wavelength...
Plasma enhanced chemical vapor deposition phosphoros-doped silicon oxynitride (SiON) layers with a r...
This work reports a method for reducing hydrogen content in silicon oxynitride film for integrated o...
5 % B2H6/Ar and 5 % PH3/Ar were introduced to the plasma enhanced chemical vapor deposition process ...
5% $B_2H_6/Ar$ and 5% $PH_3/Ar$ were introduced to the plasma enhanced chemical vapor deposition pro...
Plasma enhanced chemical vapor deposition phosphoros-doped silicon oxynitride (SiON) layers with a r...
Phosphorus-doped silicon oxynitride layers (n = 1.48 – 1.59) have been deposited by a Plasma Enhance...
Silicon Oxynitride layers are grown from SiH4/N2, NH3 and N2O by Plasma Enhanced Chemical Vapor Depo...
PECVD Silicon Oxynitride (SiON) layers with different refractive indices (1.472-1.635) were grown an...
PECVD Phosphorus-doped silicon oxynitride layers (n=1.5) were depositedfrom N20, 2%SiHdN2, NH3 and 5...
PECVD Phosphorus-doped silicon oxynitride layers (n=1.5) were deposited from N2O, 2%SiH4/N2, NH3 and...
This work explores the technology for preparing low hydrogen-content silicon oxynitride film for int...