Optical star coupler with a planar mixer element
First Claim
1. An optical star coupler for multi-mode light conducting fibers of a fiber optical system, said coupler including a mixing element and coupler fibers, said mixing element consisting of a planar waveguide having an input end and an output end, said ends being interconnected to two groups of said coupler fibers with a packing density of each group of coupler fibers at the input and output ends being as high as possible, said planar waveguide having a thickness being approximately equal to the diameter of each of the star coupler fibers, said coupler fibers being coupled to the input and output ends and being in the same plane with the mixing element, and each of the coupler fibers having a diameter approximately equal to a core diameter of the light conducting fibers of the fiber optical system so that substantially all of the light coupled from a fiber of the system into the coupler fiber is coupled into the mixing element and the losses of light being coupled from the mixing element through the coupler fiber to the fiber of the system are only due to losses from packing density.
1 Assignment
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Accused Products
Abstract
An optical star coupler, which includes a mixing element consisting of a planar waveguide having an input and output end for interconnecting two groups of light conducting fibers with a packing density of each group of fibers being as high as possible and the planar waveguide having a thickness approximately equal to the diameter of the fibers, characterized by each fiber which is to be connected to a fiber of a fiber optical system having a diameter approximately equal to the core diameter of this fiber of the fiber optical system and, preferably, the mixing element on the surfaces, which are not connected to the fibers, are in contact with a medium having an index of refraction less than the index of refraction of the mixing element. Preferably, this medium comprises a material having substantially the same coefficient of thermal expansion and is an optical adhesive.
30 Citations
13 Claims
- 1. An optical star coupler for multi-mode light conducting fibers of a fiber optical system, said coupler including a mixing element and coupler fibers, said mixing element consisting of a planar waveguide having an input end and an output end, said ends being interconnected to two groups of said coupler fibers with a packing density of each group of coupler fibers at the input and output ends being as high as possible, said planar waveguide having a thickness being approximately equal to the diameter of each of the star coupler fibers, said coupler fibers being coupled to the input and output ends and being in the same plane with the mixing element, and each of the coupler fibers having a diameter approximately equal to a core diameter of the light conducting fibers of the fiber optical system so that substantially all of the light coupled from a fiber of the system into the coupler fiber is coupled into the mixing element and the losses of light being coupled from the mixing element through the coupler fiber to the fiber of the system are only due to losses from packing density.
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8. A method of manufacturing a mixing element utilized in a star coupler, said mixing element being a planar element having an input end and an output end for attachment to the ends of optical fibers lying in a plane and each of the fibers having a diameter substantially equal to the thickness of said element, said method comprising the steps of providing a beginning substrate and a mixer lamina;
- milling a channel in a surface of said substrate, said channel having a width a little greater than the width of the mixer lamina and having a length terminating in seating ridges shorter than the length of the mixer lamina;
filling the channel with an optical adhesive;
positioning the mixer lamina on the seating ridges in an aligned and centered position relative to the width of the channel;
providing a cover having a corresponding cover channel;
filling the cover channel of the cover with an optical adhesive; and
subsequently placing the cover on the substrate with the cover channel aligned with the channel of the substrate to have the mixer lamina completely surrounded on four sides by an optical adhesive material. - View Dependent Claims (9)
- milling a channel in a surface of said substrate, said channel having a width a little greater than the width of the mixer lamina and having a length terminating in seating ridges shorter than the length of the mixer lamina;
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10. A method of manufacturing a mixing element for use in a star coupler interconnecting a pair of bunches of optical fibers arranged in a plane having diameters substantially equal to the thickness of the mixing element, said method comprising the steps of providing a substrate;
- milling a surface of the substrate to provide a central ridge extending across the surface of the substrate and having a width greater than the width of the mixing element, said milling including forming a first channel extending across the width of the ridge and having a length less than the length of the mixing element and being terminated by seating ridges having seating surfaces;
bonding limiting members on the milled surface of the substrate adjacent said ridge to form an enlarged channel across the substrate, said limiting members having a height greater than the height of the ridge;
filling the first channel with an optical adhesive;
placing a mixer lamina having a thickness greater than the diameter of the optical waveguides to be coupled to the mixing element on the ridge resting on the seating surface;
filling the remaining portion of the enlarged channel with an adhesive;
subsequent to hardening of the adhesive, grinding the exposed surfaces of the mixer lamina and the limiting members to the desired thickness and subsequently polishing the ground surface;
providing a cover having a cover channel corresponding to the width of the ridge;
securing said cover with said cover channel filled with optical adhesive in alignment on said substrate and subsequently polishing the exposed ends of the mixer lamina to form the mixing element. - View Dependent Claims (11, 12, 13)
- milling a surface of the substrate to provide a central ridge extending across the surface of the substrate and having a width greater than the width of the mixing element, said milling including forming a first channel extending across the width of the ridge and having a length less than the length of the mixing element and being terminated by seating ridges having seating surfaces;
Specification