Process for manufacturing a branch element
First Claim
1. A process for producing a branch element having at least three separate groups of channels containing waveguides with the channels of each group being parallel to each other and two groups of channels being arranged to extend in the common plane separated by a common reflective layer with the channels of each of the two groups being axially aligned and at least one additional group extending from one of the two aligned groups at the common reflective layer, said process comprising the steps of providing a body having a flat surface, forming a plurality of parallel guide channels in the flat surface, dividing the body along a plane extending at right angles to the guide channels to form a first part and a second part, inserting a waveguide into each of the channels of each of said parts, securing the waveguides in the first part with an optical adhesive and a cover member, polishing an end surface of the first part to be optically flat and form a joining surface, positioning the first part with the joining surface on the flat surface of the second part with the axes of the waveguides of each part being in the same planes and extending at right angles to each other, securing the two parts together in the selected position to form an assembly, splitting the assembly along a plane bisecting the angle formed by the planes of the waveguides of the two parts to form a pair of halves with split surfaces extending at forty-five degrees to the plane of each group of waveguides, polishing each of the split surfaces of the halves to be optically flat, applying a partially reflective layer on one of the two polished surfaces, assembling the two halves with the axes of the corresponding light waveguides being in axial alignment, and securing the assembled halves together to form the element.
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Abstract
A branching element for distributing light from a group of incoming waveguides to outgoing waveguide groups characterized by a member having at least three separate groups of channels, all the channels in each group being parallel to each other and lying in a plane of the group, two of said groups of channels being aligned to lie in the same plane with the channels of the one group being axially aligned with the channels of the other group and separated therefrom by a common partially permeable reflecting layer extending at an angle to the plane and formed by the two groups of channels, at least one additional group of channels extending at an angle to the plane of the two aligned groups of channels and intersecting the aligned two groups of channels at a common reflective layer, and light waveguides being arranged in each of the channels, the light waveguides in the channels of the two aligned groups having end faces extending in the plane of the layer and enaged therewith and the waveguides in the additional groups having end faces engaging the waveguides in one of the two aligned groups of channels.
21 Citations
8 Claims
- 1. A process for producing a branch element having at least three separate groups of channels containing waveguides with the channels of each group being parallel to each other and two groups of channels being arranged to extend in the common plane separated by a common reflective layer with the channels of each of the two groups being axially aligned and at least one additional group extending from one of the two aligned groups at the common reflective layer, said process comprising the steps of providing a body having a flat surface, forming a plurality of parallel guide channels in the flat surface, dividing the body along a plane extending at right angles to the guide channels to form a first part and a second part, inserting a waveguide into each of the channels of each of said parts, securing the waveguides in the first part with an optical adhesive and a cover member, polishing an end surface of the first part to be optically flat and form a joining surface, positioning the first part with the joining surface on the flat surface of the second part with the axes of the waveguides of each part being in the same planes and extending at right angles to each other, securing the two parts together in the selected position to form an assembly, splitting the assembly along a plane bisecting the angle formed by the planes of the waveguides of the two parts to form a pair of halves with split surfaces extending at forty-five degrees to the plane of each group of waveguides, polishing each of the split surfaces of the halves to be optically flat, applying a partially reflective layer on one of the two polished surfaces, assembling the two halves with the axes of the corresponding light waveguides being in axial alignment, and securing the assembled halves together to form the element.
- 6. A process for producing a branching element having four groups of waveguides with the waveguides of two groups being in the same plane and being axially aligned and the waveguides of the other two groups lying in a plane and extending at right angles to the plane of the first two groups, said process comprising the steps of providing a starting body having a flat surface, forming a plurality of parallel extending guide channels in said flat surface, subdividing the starting body in a plane extending at right angles to the axis of the guide channels into a first part and a second part, positioning light waveguides in each of the channels of each of the two parts, securing the light waveguides in both parts by utilizing cement and a cover member, polishing an end surface of each of said first and second parts to be optically flat, said end surface extending at an angle to the axis of the waveguides, applying a light sensitive thick film onto the polished end surface of the first part, producing a plurality of parallel extending guide channels photolithographically in the light sensitive thick film with each of said channels in the film intersecting the axis of an existing light waveguide in said first part at right angles thereto, securing a light waveguide in each of the guide channels formed in the thick film, positioning the second part with the polished end surface on the thick film with the light waveguides of the second part in a desired position with respect to the light waveguides of the first part, securing the first and second parts together in said position by cementing to form an assembly, splitting the assembly into two halves by splitting along a plane bisecting the two planes of waveguides, polishing each of the split surfaces formed by the step of splitting to be optically flat, providing a common partially permeable reflector layer on one of said polished split surfaces, repositioning the two halves with the polished surface of the other half engaging the partially permeable reflector layer with the waveguides of the other half being in alignment with groups of waveguides of the one half to place the halves in an aligned reassembled position, and securing the halves in said aligned reassembled position together to form said element.
Specification