Passive Photonic Integrated Circuit Components#
Passive photonic integrated circuit (PIC) components form the backbone of many optical systems, enabling the manipulation and routing of light with high precision and efficiency. This category encompasses a diverse array of elements, each designed to perform specific functions without the need for external power. These components exhibit a wide range of functionalities including light coupling, splitting, filtering, and polarization control.
- Waveguide Y junction
- Waveguide to ring coupling
- Waveguide crossing based on cosine tapers
- Euler waveguide bend
- Inverse taper edge coupler
- 2D effective index approximation of 3D simulations
- Uniform grating coupler
- Focusing apodized grating coupler
- 1x4 MMI power splitter
- 2D ring resonator
- Broadband bi-level taper polarization rotator-splitter
- Waveguide mode size converters
- Strip to slot waveguide converters
- Waveguide bragg gratings
- Broadband directional coupler
- Compact polarization splitter-rotator
- 8-Channel mode and polarization de-multiplexer
- THz integrated demultiplexer/filter based on a ring resonator
- Photonic crystal waveguide polarization filter
- 90 degree optical hybrid
- Broadband polarizer assisted by anisotropic metamaterial
- Exceptional coupling for waveguide crosstalk reduction
- Thin film lithium niobate adiabatic waveguide coupler
- Polarization splitter and rotator based on 90 degree bends
- Plasmonic waveguide sensor for carbon dioxide detection
- Bi-layer SiN edge coupler in the visible frequency
- Dielectric waveguide with scale-invariant effective index
- Unidirectional waveguide grating antenna
- Free-form chip-to-chip coupler
- MMI-based NIR/MIR demultiplexer
- Dispersion calculation in tapered waveguide
- Designing a polarization splitter/rotator on thin-film lithium niobate
- Integrated plasmonic Vivaldi antenna with silicon waveguide
- Generation of Kerr sideband