Patent ID: 8412007
Filing Date: 2013-04-02
Classification: G02B

Abstract:
1. A 3-D waveguide coupling device comprising: a substrate; at least one waveguide layer, being formed on the substrate to be a propagation layer of a light; at least one assisting grating, being formed on the waveguide layer and capable of helping to lead the light into the waveguide layer; two coupling material layers, consisting of a first coupling material layer and a second coupling material layer, wherein the first coupling material layer is a silicon oxide layer and formed on the waveguide layer by way of covering the assisting grating, and the second coupling material layer is a silicon nitride layer, formed on the first coupling material layer; and at least one 3-D tapered structure layer, being made of photosensitive material and formed on the second coupling material layer, and having a height differential between two terminal ends thereof, wherein one terminal end of the 3-D tapered structure layer is used for connecting an external optical fiber, and the 3-D tapered structure layer would show a two-dimension transverse variation when the light is inputted in to the 3-D tapered structure layer from the external optical fiber via the connected terminal end of the 3-D tapered structure layer; wherein the refractive index of the waveguide layer is greater than the reflective index of the first coupling material layer, the refractive index of the first coupling material layer is greater than the refractive index of the second coupling material layer, and the refractive index of the second coupling material layer is greater than the refractive index of the 3-D tapered structure layer; wherein the two-dimension transverse variation makes the propagation constant of the 3-D tapered structure layer be coincident with the propagation constant of the coupling material layer, and then the inputted light can be coupled into the second coupling material layer from the 3-D tapered structure layer directly and efficiently; therefore, the light would be next coupled into the first coupling material layer and eventually coupled into the waveguide layer from the second coupling material layer losslessly.