Add to ORKGWe report the fabrication of planar optical waveguides using multi ion diffusion by femtosecond laser ablation. A real-time implantation of Te3+, Zn2+, Na+ ions along with rare earth ion Er3+ in oxygen plasma is achieved (fig.1). The planar waveguides are analysed using prism coupling method to understand the modal behaviour. Optical characteristics specify a high refractive index contrast optical waveguide layer formation, ensuring a thickness up to 3.2 µm with 1.6 refractive index at 1550 nm optical communication wavelength. An overall optical transparency >90% is well observed in the 800-1700 nm NIR range using transmission spectroscopy (Fig.2), making it suitable for photonic applications. The effect of various process parameters like l...
Over the last 25 years has seen an unprecedented increase in the growth of phonic components based o...
Localized, three-dimensional refractive index changes are generated by focused femtosecond laser rad...
Highly rare-earth doped silicates have the potential to enact far-reaching changes in photonic devic...
We report the fabrication of planar optical waveguides using multi ion diffusion by femtosecond lase...
Er3+/Yb3+-codoped silicate glasses are good candidates for the application of laser actions and sign...
Over the last 25 years has seen an unprecedented increase in the growth of phonic components based o...
Rare-earth (RE) doped optical materials, compatible with CMOS processing, are essential for the deve...
Integrated optics technology has led to the development of miniaturized optical devices that can off...
We report fabrication and characterisation of the erbium-doped planar waveguide on a silica-on-silic...
Fabrication of optical waveguides in glasses and crystals is very common for many applications in in...
We report on the fabrication of waveguides in fused silica using 4.5-MeV nitrogen ion implantation w...
Using reactive pulsed laser deposition, a thin film of erbium-doped oxyfluoride-silicate glass is de...
In this work, a planar waveguide was fabricated by proton implantation in Er3+/Yb3+-codoped silicate...
We report on the fabrication and characterization of low-loss planar and stripe waveguides in a Nd3+...
An ultrafast laser plasma doping (ULPD) technique is used for high concentration doping of erbium io...
Over the last 25 years has seen an unprecedented increase in the growth of phonic components based o...
Localized, three-dimensional refractive index changes are generated by focused femtosecond laser rad...
Highly rare-earth doped silicates have the potential to enact far-reaching changes in photonic devic...
We report the fabrication of planar optical waveguides using multi ion diffusion by femtosecond lase...
Er3+/Yb3+-codoped silicate glasses are good candidates for the application of laser actions and sign...
Over the last 25 years has seen an unprecedented increase in the growth of phonic components based o...
Rare-earth (RE) doped optical materials, compatible with CMOS processing, are essential for the deve...
Integrated optics technology has led to the development of miniaturized optical devices that can off...
We report fabrication and characterisation of the erbium-doped planar waveguide on a silica-on-silic...
Fabrication of optical waveguides in glasses and crystals is very common for many applications in in...
We report on the fabrication of waveguides in fused silica using 4.5-MeV nitrogen ion implantation w...
Using reactive pulsed laser deposition, a thin film of erbium-doped oxyfluoride-silicate glass is de...
In this work, a planar waveguide was fabricated by proton implantation in Er3+/Yb3+-codoped silicate...
We report on the fabrication and characterization of low-loss planar and stripe waveguides in a Nd3+...
An ultrafast laser plasma doping (ULPD) technique is used for high concentration doping of erbium io...
Over the last 25 years has seen an unprecedented increase in the growth of phonic components based o...
Localized, three-dimensional refractive index changes are generated by focused femtosecond laser rad...
Highly rare-earth doped silicates have the potential to enact far-reaching changes in photonic devic...