Optical-fiber-bundle structure, rare-earth-doped multi-core fiber, connection structure therefor, method for exciting rare-earth-doped multi-core fibers, and multi-core-optical-fiber amplifier

What is claimed is: 1. A connection structure for an optical-fiber-bundle structure and a rare-earth-doped multi-core fiber, wherein the optical-fiber-bundle structure comprises a pump light optical fiber that transmits pump light, which is arranged at the center thereof, and peripheral optical fibers, which are in a close-packed arrangement on the outer circumference of the pump light optical fiber, wherein the diameter of the pump light optical fiber is larger than the diameter of the peripheral optical fiber, and there are at least seven or more of the peripheral optical fibers, and at least a part of the peripheral optical fibers is a signal light optical fiber, and the equation R ≦ 1 - sin ⁡ ( 180 n ) ∘ sin ⁡ ( 180 n ) n ⁢ r is satisfied with R as a radius of the pump light optical fiber that transmits pump light at the center and r as a radius of each of the n peripheral optical fibers; and the rare-earth-doped multi-core fiber comprises cores, which are optically connected with the signal light optical fiber at a predetermined pitch on a same circumference, and a cladding, which has a refractive index lower than that of the cores, covers the cores, and are optically connected with the pump light optical fiber, wherein the cladding includes a high-refractive-index cladding having a relatively high refractive index and a low-refractive-index cladding having a relatively low refractive index, and the high-refractive-index cladding is on at least the outer circumference of each of the cores. 2. The connection structure for an optical-fiber-bundle structure and a rare-earth-doped multi-core fiber according to claim 1 , wherein a part of the peripheral optical fibers is dummy fibers; and the signal light optical fiber is interposed between the dummy fibers and the signal light optical fibers are arranged at predetermined intervals. 3. The connection structure for an optical-fiber-bundle structure and a rare-earth-doped multi-core fiber according to claim 1 , wherein the pump light optical fiber is a multi-mode optical fiber; and the outer diameter of the pump light optical fiber is fixed along the longitudinal direction from the tip of the bundle structure to a light source connected to the pump light optical fiber. 4. The connection structure for an optical-fiber-bundle structure and a rare-earth-doped multi-core fiber according to claim 1 , wherein the end parts of the pump light optical fiber that transmits pump light and the signal light optical fibers are held by a capillary; and at least a part of the pump light optical fiber inside the capillary is formed only by a core without claddings. 5. The connection structure for an optical-fiber-bundle structure and a rare-earth-doped multi-core fiber according to claim 1 , wherein the peripheral optical fiber is a signal light optical fiber, and the signal light optical fiber comprises a center core; a second core that is formed on the outer circumference of the center core and has a refractive index lower than the refractive index of the center core; and a cladding that is formed on the outer circumference of the second core and has a refractive index lower than the refractive index of the second core. 6. The connection structure for an optical-fiber-bundle structure and a rare-earth-doped multi-core fiber according to claim 1 , wherein the pump light optical fiber is a tapered fiber having a tapered part in which the diameter thereof decreases towards the end part thereof. 7. The connection structure for an optical-fiber-bundle structure and a rare-earth-doped multi-core fiber according to claim 1 , wherein the pump light optical fiber comprises a center cladding, a core section that is arranged on the outer circumference of the center cladding having a refractive index higher than the refractive index of the center cladding, and a peripheral cladding that is arranged on the outer circumference of the core section and having a refractive index lower than the refractive index of the core section, and the core section is formed like a ring on the cross-section. 8. The connection structure for an optical-fiber-bundle structure and a rare-earth-doped multi-core fiber according to claim 1 , wherein the high-refractive-index cladding is formed on the outer circumference of each of a plurality of the cores; and the high-refractive-index cladding is covered by the low-refractive-index cladding.