WAVEGUIDE SHAPE AND WAVEGUIDE CORE SIZE OPTIMIZATION

Planar optical waveguide core

Planar optical waveguide core

The waveguide consists of a semi-infinite slab of dielectric materials with thickness d and refractive index n 1 (the core) that is sandwiched between two regions (the cladding) both of refractive index n 2, and where n 1>n 2. One essential el-ement is the guiding of the optical radiation in waveguides for integrated optical devices and optical fibers for long distance transmission. The same mathematical ideas can be applied (with minor modifications) to circular waveguides. The waveguide core size of the fundamental mode in the waveguide direction (y axis) can be enlarged to 400 μm by introducing the refractive index matching and mode competition, to increase single-pass gain of the waveguide while ensuring good beam quality in the y -axis direction.

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Based on grating waveguide arrays

Based on grating waveguide arrays

Arrayed waveguide gratings (AWG) are commonly used as optical (de)multiplexers in wavelength division multiplexed (WDM) systems. It is usually built as part of a planar lightwave circuit (photonic integrated circuit), where the light coming from an input fiber first enters a multimode. Component-level simulations using varFDTD are carried out for more realistic results. It is a very powerful integrated light-dispersion technology with sig-nificant exibility for tailoring its performance to the individual.

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Planar Optical Waveguide Technology

Planar Optical Waveguide Technology

Planar waveguides are optical waveguides with a planar geometry that confine light propagation to a single dimension. They are often fabricated in the form of a thin transparent film with increased refractive index on some substrate, or possibly embedded between two substrate layers. FIMMPROP is probably the most widely used propagation tool for the modelling of silicon photonics: rigorous (no slowly varying approximation), fully vectorial, offering wide angle capability and very high design flexibility.

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Waveguide Optical Splitter

Waveguide Optical Splitter

In this paper, low-loss Y-branch splitters up to 128 splitting ratio are designed, simulated, and optimized by using 2D beam propagation method in OptiBPM tool by Optiwave.

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