SU1269070A1 - Integrated optical divider - Google Patents

Abstract

The invention can be used in optical processing systems. information, as well as in fiber-optic communication lines. The purpose of the invention is to miniaturize the device and increase the efficiency of transmission of light energy. To do this, an integrated optical lens 5 is installed in the region of the glider waveguide 4, which converts the light flux from the strip waveguide 2 of the input channel to a parallel beam uniformly distributed through horn transitions 3 along the output strip optical waveguides 2. the horn field regions of the transitions to the planar waveguide. 2 Il. (L 0: with

Description

The invention relates to integrated optics and can be used in optical information processing systems, as well as in fiber-optic communication lines.

The aim of the invention is to miniaturize the device and increase the efficiency of transmission of light energy.

Figure 1 shows the diagram of the device; figure 2 - scheme of the input (output) channels.

The device (Fig. 1) consists of a substrate made of glass or an electro-optic material, for example, niobate lithium, with a refractive index ho, two groups of strip waveguides 2, forming input and output channels, passing through horn transitions 3 to a planar waveguide 4, integrated optical lenses 5. All waveguide elements have refractive indices n and the ratio n p,. The width of the strip waveguides is selected from the conditions of the best joining with the fiber and corresponds to the diameter of the fiber core. The angle of divergence of the horn C | (Fig. 2) should be less than 1 / A of the angle of reception of the waveguide structure.

The parameters of the strip waveguide and the lens are related as follows

where n is an indicator

I-refraction of the material of the waveguide elements; n is the refractive index of the substrate material, the focal length of the lens.

The device works as follows.

690702

Light from any strip waveguide 2 groups of input channels, passing through a horn junction 3, is converted by the lens into a parallel beam, which exactly falls into the location of the horn devices of the output channels, is evenly distributed around the aperture of each of them, is captured by horn devices. waveguides 2 and transmitted to the external link.

Claims (1)

Invention Formula 15 An integrated optical divider consisting of a substrate with two groups of stripe optical waveguides located on it, forming the input and output of the device, passing through horn transitions to a planar optical waveguide, characterized in that in order to miniaturize it, increase transmission efficiency light 25 energy, an integrated optical lens is introduced into it, whose focal plane coincides with the plane of connection of the planar optical.-Waveguide with optical strip 30 waveguides, and the width of the region of horn transitions to the planar waveguide I is determined from the relation 4 2Li-Bir .f. Pp  the refractive index of the material of the water bodies; 0 is the refractive index of the “substrate material; f is the focal length of the lens. 9G