Athermal arrayed waveguide gratings in silicon-on-insulator by overlaying a polymer cladding on narrowed arrayed waveguides

Athermal Silicon-on-insulator ring resonators by overlaying a polymer cladding on narrowed waveguides.

Athermal silicon ring resonators are experimentally demonstrated by overlaying a polymer cladding on narrowed silicon wires. The ideal width to achieve athermal condition for the TE mode of 220 nm-height SOI waveguides is found to be around 350 nm. After overlaying a polymer layer, the wavelength temperature dependence of the silicon ring resonator is reduced to less than 5 pm/degrees C, almost...

4 Arrayed Waveguide Gratings

An optical packet network based on arrayed waveguide gratings

This work presents PrimeNet, a novel architecture for optical multihop networks and investigates a Medium Access Control (MAC) protocol and a fairness algorithm for it. The network architecture is based on an Arrayed Waveguide Grating, a passive optical device that is used widely as wavelength multiplexer/demultiplexer, today. Relying on a physical star architecture logical rings are set up on ...

Reflective Arrayed Waveguide Grating with Sagnac Loop Reflectors in Silicon-on-Insulator with Gaussian Pass-band

In this paper the experimental demonstration of a Silicon-on-Insulator Reflective Arrayed Waveguide Grating (R-AWG) is reported. The device employs one Sagnac loop mirror per arm in the array, built with a 1x2 input/outputs, 50:50 splitting ratio, Multimode Interference coupler, for total reflection. The spectral responses obtained are compared to those of regular AWGs fabricated in the same di...

Silicon arrayed waveguide gratings at 2.0-μm wavelength characterized with an on-chip resonator.

Low-loss arrayed waveguide gratings (AWGs) are demonstrated at a 2.0-μm wavelength. These devices promote rapidly developing photonic applications, supported by the recent development of mid-infrared lasers integrated on silicon (Si). Multi-spectral photonic integrated circuits at 2.0-μm are envisioned since the AWGs are fabricated with the 500-nm-thick Si-on-insulator platform compatible with ...