Optical combiner, laser device using same, and method for manufacturing optical combiner

The invention claimed is: 1. An optical combiner comprising: a plurality of incoming optical fibers; an outgoing optical fiber; and a plurality of bridge fibers provided between the plurality of incoming optical fibers and the outgoing optical fiber, the plurality of bridge fibers being optically coupled to each other, wherein each of the plurality of bridge fibers has a core, a cladding that surrounds an outer circumferential surface of the core, and a tapered portion where an outer diameter is more decreased toward an emission end, the plurality of bridge fibers includes a first bridge fiber and a second bridge fiber, the second bridge fiber being disposed closer to the outgoing optical fiber than the first bridge fiber, the second bridge fiber has a ratio of an outer diameter of the core to an outer diameter of the cladding smaller than the ratio of the outer diameter of the core to the outer diameter of the cladding of the first bridge fiber, and in the plurality of bridge fibers, a bridge fiber to which the outgoing optical fiber is coupled is fusion-spliced to the outgoing optical fiber and has the cladding made of silica and having a uniform refractive index. 2. An optical combiner comprising: a plurality of incoming optical fibers; an outgoing optical fiber; and a plurality of bridge fibers provided between the plurality of incoming optical fibers and the outgoing optical fiber, the plurality of bridge fibers being optically coupled to each other, wherein each of the plurality of bridge fibers has a tapered portion where an outer diameter is more decreased toward an emission end, in the plurality of bridge fibers, a bridge fiber to which the plurality of incoming optical fibers is coupled entirely propagates a light beam, and two or more bridge fibers other than the bridge fiber have a core and a cladding that surrounds an outer circumferential surface of the core, the two or more bridge fibers include a first bridge fiber and a second bridge fiber, the second bridge fiber being disposed closer to the outgoing optical fiber than the first bridge fiber, the second bridge fiber has a ratio of an outer diameter of the core to an outer diameter of the cladding smaller than the ratio of the outer diameter of the core to the outer diameter of the cladding of the first bridge fiber, and in the two or more bridge fibers, a bridge fiber to which the outgoing optical fiber is coupled is fusion-spliced to the outgoing optical fiber and has the cladding made of silica and having a uniform refractive index. 3. The optical combiner according to claim 1 , wherein a refractive index difference between the core and the cladding is greater in the second bridge fiber than the refractive index difference in the first bridge fiber. 4. The optical combiner according to claim 2 , wherein a refractive index difference between the core and the cladding is greater in the second bridge fiber than refractive index difference in the first bridge fiber. 5. The optical combiner according to claim 1 , wherein an outer diameter of the core on an outgoing end face of a bridge fiber which is fusion-spliced to the outgoing optical fiber is smaller than an outer diameter of the core on an incoming end face of the outgoing optical fiber. 6. The optical combiner according to claim 2 , wherein an outer diameter of the core on an outgoing end face of a bridge fiber which is fusion-spliced to the outgoing optical fiber is smaller than an outer diameter of the core on an incoming end face of the outgoing optical fiber. 7. A laser device comprising: the optical combiner according to claim 1 ; and a laser light source for applying laser light to the incoming optical fiber.