Optical amplifying fiber, optical fiber amplifier, and optical communication system

What is claimed is: 1 . An optical amplifying fiber comprising: at least one single core portion doped with a rare-earth element; an inner cladding portion configured to enclose the at least one core portion, the inner cladding portion having a lower refractive index than maximum refractive index of each core portion; and an outer cladding portion configured to enclose the inner cladding portion, the outer cladding portion having a lower refractive index than refractive index of the inner cladding portion, wherein the inner cladding portion includes a plurality of air bubbles. 2 . The optical amplifying fiber according to claim 1 , wherein, in cross-sectional surface orthogonal to axial direction of the optical amplifying fiber, sum total of cross-sectional areas of the plurality of air bubbles with respect to cross-sectional area of the inner cladding portion is equal to or greater than 0.1% and equal to smaller than 30%. 3 . The optical amplifying fiber according to claim 1 , wherein diameter of the air bubbles is equal to or greater than 1/2000 times and equal to or smaller than as twice as wavelength of light propagating through the inner cladding portion. 4 . The optical amplifying fiber according to claim 1 , wherein, in cross-sectional surface orthogonal to axial direction of the optical amplifying fiber, the air bubbles are present in a toric region separated from the core portion by distance equal to or greater than core diameter. 5 . The optical amplifying fiber according to claim 1 , wherein, in radial direction of each portion of the optical amplifying fiber, the air bubbles have substantially uniform distribution. 6 . The optical amplifying fiber according to claim 1 , wherein, in axial direction of the optical amplifying fiber, the air bubbles have substantially uniform distribution. 7 . The optical amplifying fiber according to claim 1 , wherein, in axial-rotation direction of each core portion of the optical amplifying fiber, the air bubbles have substantially uniform distribution. 8 . The optical amplifying fiber according to claim 1 , wherein a plurality of core portions is included as at least a single core portion, and density of the air bubbles is different on inside and on outside of boundary that has circular tube shape and that passes thorough core portions which, from among the plurality of core portions, are centered around center of the optical multiplying fiber and are most separated from the center. 9 . The optical amplifying fiber according to claim 1 , wherein the rare-earth element includes erbium. 10 . The optical amplifying fiber according to claim 1 , wherein, in the inner cladding portion, in cross-sectional surface orthogonal to axial direction of the optical amplifying fiber, two or more layers having low density of air bubbles are present or two or more layers having high density of air bubbles are present. 11 . The optical amplifying fiber according to claim 1 , wherein, in cross-sectional surface orthogonal to axial direction of the optical amplifying fiber, the air bubbles are separated from the core portion by distance equal to or greater than core diameter. 12 . The optical amplifying fiber according to claim 1 , wherein regions of the air bubbles are positioned in a rotation symmetry around center of the optical amplifying fiber. 13 . The optical amplifying fiber according to claim 1 , wherein, when a hexagonal close-packed lattice is defined in cross-sectional surface perpendicular to axial direction of the optical amplifying fiber, regions of the air bubbles are positioned at lattice points. 14 . The optical amplifying fiber according to claim 1 , wherein, when a hexagonal close-packed lattice is defined in cross-sectional surface perpendicular to axial direction of the optical amplifying fiber, the air bubbles are present in toric shape that is centered around particular lattice point and that has radius equal to or smaller than half of inter-lattice-point distance. 15 . An optical fiber amplifier comprising: the optical amplifying fiber according to claim 1 ; a pumping light source configured to output pumping light for causing optical excitation of the rare-earth element present in the optical amplifying fiber; and an optical coupler configured to cause optical coupling of the pumping light with the inner cladding portion. 16 . The optical fiber amplifier according to claim 15 , further comprising a plurality of core portions as the at least one single core portion, wherein difference of gains among the plurality of core portions is equal to or smaller than 3 dB. 17 . An optical communication system comprising the optical fiber amplifier according to claim 15 .