3D simulation of a Ta2O5 photonic crystal cavity in a triangular lattice of holes
The lattice constant is 575 nm, the air hole radius is 194 nm, and the slab height is 1um. Cavity is formed by reducing the radius of the inner six holes to 100 nm, and removing holes along the outer edge of the cavity.
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Simulator(s) Used
Lumerical FDTD Solutions is a high performance 3D FDTD-method Maxwell solver for the design, analysis and optimization of nanophotonic devices, processes and materials. Well suited for analyzing the interaction of UV, visible, and IR radiation with complicated structures employing wavelength scale features.
For more details see Lumerical FDTD Solutions.
Results
List of Other Lumerical FDTD Solutions Simulation Models on Kogence
Following are some more recently added public Lumerical FDTD Solutions models available for cloning/copying by anyone:
- 3D simulation of a Ta2O5 photonic crystal cavity in a triangular lattice of holes
- Extracting the S parameters of a 4 port coupled Si ring resonator-waveguide system
- Extracting the S parameters of a 4 port coupled Si ring resonator-waveguide system (2)
- Lumerical 3D simulation of a Ta2O5 photonic crystal cavity in a triangular lattice of holes
- Lumerical simulation of scattering properties of a silver nanowire
- Lumerical simulation of scattering properties of a silver nanowire (1)
See the full list of public Lumerical FDTD Solutions models available for cloning/copying here: Category:Lumerical FDTD Solutions. Alternatively, you could also click on the category links at the bottom of this page to navigate to other simulation models in similar subject are or similar computational methodology.