Multicore fiber and method of manufacture of the same

The invention claimed is: 1. A method of manufacture of a multicore fiber comprising: boring a plurality of through holes in a cladding rod so that the through holes along a longitudinal direction of the cladding rod are arranged and disposed on a linear line passed through a center of the cladding rod; inserting a core enclosed rod that a core rod is enclosed with a glass layer individually into the plurality of the through holes; heating the cladding rod and the core enclosed rod and integrally forming the cladding rod with the core enclosed rod; and drawing the rods integrally formed in the heating, wherein the plurality of the through holes includes a pair of outer through holes located at outermost positions and one or more of inner through holes sandwiched between the pair of the through holes, in the inserting, a first space between the core enclosed rod and the inner through hole in a first direction, in which the plurality of the through holes is arranged, is made smaller than a second space between the core enclosed rod and the inner through hole in a second direction orthogonal to the first direction, and a difference between the first space and the second space is set greater than a difference between a third space and a fourth space, the third space being between the core enclosed rod and the outer through hole in the first direction, the fourth space being between the core enclosed rod and the outer through hole in the second direction. 2. The method of manufacture of a multicore fiber according to claim 1 , wherein the inner through hole includes a diameter in the first direction almost same as a diameter in the second direction, and the core enclosed rod inserted into the inner through hole includes a diameter in the second direction made smaller than a diameter in the first direction. 3. The method of manufacture of a multicore fiber according to claim 2 , wherein an outer shape of the inner through hole in a cross section is in a circular shape, and an outer shape of the core enclosed rod inserted into the inner through hole in a cross section is in an elliptic shape. 4. The method of manufacture of a multicore fiber according to claim 1 , wherein the inner through hole includes a diameter in the first direction smaller than a diameter in the second direction, and the core enclosed rod inserted into the inner through hole includes a diameter in the first direction almost same as a diameter in the second direction. 5. The method of manufacture of a multicore fiber according to claim 4 , wherein an outer shape of the inner through hole in a cross section is in an elliptic shape, and an outer shape of the core enclosed rod in a cross section is in a circular shape. 6. The method of manufacture of a multicore fiber according to claim 1 , wherein the integrating and the drawing are performed simultaneously. 7. A method of manufacture of a multicore fiber comprising: boring a plurality of through holes in a cladding rod so that the through holes along a longitudinal direction of the cladding rod are arranged and disposed on a linear line passed through a center of the cladding rod; inserting a core enclosed rod that a core rod is enclosed with a glass layer individually into the plurality of the through holes; heating the cladding rod and the core enclosed rod and integrally forming the cladding rod with the core enclosed rod; and drawing the rods integrally formed in the heating, wherein the plurality of the through holes includes a pair of outer through holes located at outermost positions and one or more of inner through holes sandwiched between the pair of the through holes, and in the boring, a pair of stress buffering holes filled in the integrating is bored in the second direction as the inner through hole is sandwiched. 8. The method of manufacture of a multicore fiber according to claim 7 , wherein the integrating and the drawing are performed simultaneously. 9. A method of manufacture of a multicore fiber comprising: boring a plurality of through holes in a cladding rod so that the through holes along a longitudinal direction of the cladding rod are arranged and disposed on a linear line passed through a center of the cladding rod; inserting a core enclosed rod that a core rod is enclosed with a glass layer individually into the plurality of the through holes; heating the cladding rod and the core enclosed rod and integrally forming the cladding rod with the core enclosed rod; and drawing the rods integrally formed in the heating, wherein the plurality of the through holes includes a pair of outer through holes located at outermost positions and one or more of inner through holes sandwiched between the pair of the through holes, the core rod in the core enclosed rod inserted into the outer through hole in the inserting includes a diameter in a first direction, in which the plurality of the through holes is arranged, almost same as a diameter in a second direction orthogonal to the first direction, and the core rod in the core enclosed rod inserted into the inner through hole in the inserting includes a diameter in the first direction smaller than a diameter in the second direction. 10. The method of manufacture of a multicore fiber according to claim 9 , wherein the integrating and the drawing are performed simultaneously.