Multicore fiber

The invention claimed is: 1. A multicore fiber comprising: a plurality of core elements having a first core, an inner cladding surrounding an outer circumferential surface of the first core, and a low refractive index layer having a refractive index lower than a refractive index of the inner cladding, the low refractive index layer surrounding the inner cladding; a plurality of second cores; and an outer cladding having a refractive index lower than a refractive index of the first core and a refractive index of the second core and higher than the refractive index of the low refractive index layer, the outer cladding surrounding the core elements and the second cores, wherein: an effective refractive index of the core element is different from an effective refractive index of the second core; the plurality of core elements is enabled to be sorted into at least three types of core elements whose effective refractive indexes are different from each other; and in a triangular lattice based on apexes of a regular hexagon surrounding a center of the outer cladding, when a lattice point surrounded by the apexes is a first layer, a layer formed of lattice points located on the apexes is a second layer, a layer formed of lattice points disposed adjacently around an outer side of the second layer is a third layer, and a layer formed of lattice points disposed adjacently around an outer side of the third layer is a fourth layer, no core is disposed at the lattice point of the first layer, the first core of the core element is disposed at the lattice points of the second layer, the first core of the core element and the second core are alternately disposed at the lattice points of the third layer, in the fourth layer, no core is disposed at six lattice points, and the first core of the core element is disposed at the other lattice points, the second cores are adjacent to the lattice points of the fourth layer, at which no core is disposed, and effective refractive indexes of the core elements adjacent to each other are different from each other. 2. The multicore fiber according to claim 1 , wherein the second core is disposed on apexes of a hexagon of the third layer formed by connecting lattice points adjacent to each other. 3. The multicore fiber according to claim 2 , wherein the lattice points of the fourth layer, at which no core is disposed, are located on apexes of a hexagon of the fourth layer formed by connecting lattice points adjacent to each other. 4. The multicore fiber according to claim 2 , wherein the lattice points of the fourth layer, at which no core is disposed, are located on sides of a hexagon of the fourth layer formed by connecting lattice points adjacent to each other. 5. The multicore fiber according to claim 1 , wherein the second core is disposed on sides of a hexagon of the third layer formed by connecting lattice points adjacent to each other. 6. The multicore fiber according to claim 1 , wherein: an outer diameter of the outer cladding is 230 μm or less; and a distance from the lattice point to the lattice point is 30 μm or less. 7. The multicore fiber according to claim 1 , wherein a level of crosstalk between the core elements adjacent to each other and a level of crosstalk between the core element and the second core adjacent to each other reach a peak at a bending radius smaller than a radius of 100 mm. 8. The multicore fiber according to claim 1 , wherein when a light beam at a wavelength of 1,550 nm propagates through the core element and the second core, a level of crosstalk between the core elements adjacent to each other and a level of crosstalk between the core element and the second core adjacent to each other are −37 dB or less per 100 km. 9. The multicore fiber according to claim 1 , wherein the core element and the second core transmit a light beam at a wavelength of 1,530 nm or more in a single mode. 10. The multicore fiber according to claim 1 , wherein an effective refractive index difference between the core elements adjacent to each other and an effective refractive index difference between the core element and the second core adjacent to each other are 0.0005 or more. 11. The multicore fiber according to claim 1 , wherein an effective cross sectional area of the core element and an effective cross sectional area of the second core are equal.