Add to ORKGAn overview of an integration platform with 1–10 µm thick silicon-on-insulator waveguides is given. It is suitable for the integration and packaging of optoelectronic and silicon photonic (nm-scale) chips. The platform can also contain many passive functions, such as spot-size converters, couplers, wavelength (de)multiplexers/filters and polarization splitters. The footprint of the platform is minimized by using multi-step patterning to realize e.g. mirrors and short MMI coupler
Abstract—The current trend in silicon photonics towards higher levels of integration as well as the ...
Silicon photonics technology, which has the DNA of silicon electronics technology, promises to provi...
VTT's well-proven 3 μm SOI (Silicon Over Insulator) photonic integration platform is particularly su...
An overview of an integration platform with 1–10 µm thick silicon-on-insulator waveguides is given. ...
This paper gives an overview of the 3 μm silicon-on-insulator (SOI) platform that is openly availabl...
Feasibility of micron-scale SOI waveguides for dense photonics integration is demonstrated. Compact ...
Silicon Photonics taps on the volume manufacturing capability of traditional silicon manufacturing t...
This paper covers various design and fabrication issues related to optical modules that are realised...
Silicon photonics has been established as a mature and promising technology for optoelectronic integ...
Silicon photonics is a rapidly developing platform for integrated optics. Combining the low-loss pas...
This paper explains and demonstrates the unique properties of micron-size silicon-on-insulator (SOI)...
We present a vision for transceiver integration on a 3 µm SOI waveguide platform for systems scalabl...
A survey of the most common silicon-on-insulator (SOI) substrates and waveguide structures, as well ...
The current trend in silicon photonics towards higher levels of integration as well as the model of ...
This paper presents an overview of our recent work on several fundamental optical elements and their...
Abstract—The current trend in silicon photonics towards higher levels of integration as well as the ...
Silicon photonics technology, which has the DNA of silicon electronics technology, promises to provi...
VTT's well-proven 3 μm SOI (Silicon Over Insulator) photonic integration platform is particularly su...
An overview of an integration platform with 1–10 µm thick silicon-on-insulator waveguides is given. ...
This paper gives an overview of the 3 μm silicon-on-insulator (SOI) platform that is openly availabl...
Feasibility of micron-scale SOI waveguides for dense photonics integration is demonstrated. Compact ...
Silicon Photonics taps on the volume manufacturing capability of traditional silicon manufacturing t...
This paper covers various design and fabrication issues related to optical modules that are realised...
Silicon photonics has been established as a mature and promising technology for optoelectronic integ...
Silicon photonics is a rapidly developing platform for integrated optics. Combining the low-loss pas...
This paper explains and demonstrates the unique properties of micron-size silicon-on-insulator (SOI)...
We present a vision for transceiver integration on a 3 µm SOI waveguide platform for systems scalabl...
A survey of the most common silicon-on-insulator (SOI) substrates and waveguide structures, as well ...
The current trend in silicon photonics towards higher levels of integration as well as the model of ...
This paper presents an overview of our recent work on several fundamental optical elements and their...
Abstract—The current trend in silicon photonics towards higher levels of integration as well as the ...
Silicon photonics technology, which has the DNA of silicon electronics technology, promises to provi...
VTT's well-proven 3 μm SOI (Silicon Over Insulator) photonic integration platform is particularly su...