Patent ID: 9703035
Date: 2017-07-11
CPC Classifications: C03B,G02B

Claim:
1. An optical connector for connecting: N (N is an integer of 3 to 14) single-mode fibers each comprising one core with a high refractive index in a cladding material with a low refractive index; to a multi-core fiber comprising N cores with high refractive indexes in a cladding material with a low refractive index, wherein a diameter of the core of each of the single-mode fibers is the same as that of the cores of the multi-core fiber, and a diameter of each of the single-mode fibers is larger than a distance between each of the cores of the multi-core fiber, in such a manner that the cores of the single-mode fibers are respectively optically coupled to the cores of the multi-core fiber, the optical connector comprising: a quartz glass cylinder with a length of at least 1000 mm having a first end face to be in contact with the multi-core fiber and a second end face to be in contact with the single-mode fibers; and N glass fibers that are arranged in the quartz glass cylinder so as to extend from the first end face to the second end face, the N glass fibers each containing: a circular rod with a high refractive index that has a constant outer diameter which is the same as that of each of the cores of the multi-core fiber and that of the core of each of the single-mode fibers; and a low refractive index material that surrounds an outer periphery of the circular rod and has a constant thickness, wherein the glass fibers are arranged in the quartz glass cylinder such that: a distance between the circular rods on the first end face is equal to a core distance of the multi-core fiber; and a distance between the circular rods on the second end face is equal to a core distance of adjacent ones of the N single-mode fibers when they are bundled.