Method for manufacturing optical fiber preform, optical fiber preform, method for manufacturing optical fiber, and optical fiber

What is claimed is: 1. An optical fiber preform comprising: a core portion made of glass; a first cladding layer formed on an outer periphery of the core portion and having fluorine added thereto to have a refractive index lower than a highest refractive index in the core portion; and a second cladding layer formed on an outer periphery of the first cladding layer and made of glass having a higher softening point and a higher refractive index as compared with the first cladding layer, wherein the first cladding layer has a first refractive index profile provided at least near a boundary surface with the second cladding layer and having a profile such that a refractive index difference between a refractive index of the first cladding layer and a refractive index of the second cladding layer decreases in accordance with a reduction in a distance from the boundary surface with the second cladding layer, when a relative refractive-index difference between a highest refractive index of the core portion and the refractive index of the second cladding layer is Δ 11 , and a relative refractive-index difference between a lowest refractive index of the first cladding layer and the refractive index of the second cladding layer is Δ 12 , a value of Δ 11 is 0.35% to 0.5% and a value of Δ 12 is −0.15% to −0.03%, and wherein the first cladding layer has the first refractive index profile in a region having a width that is 20% or more of an outer diameter of the first cladding layer from the boundary surface with the second cladding layer in a radial direction of the first cladding layer, and wherein when a relative refractive-index difference between a highest refractive index and a lowest refractive index in the first refractive index profile of the first cladding layer is Δ 13 , a value of Δ 13 is 0.005% to 0.02%. 2. The optical fiber preform according to claim 1 , wherein a relative refractive-index difference between a portion of the first cladding layer with a lowest refractive index and a boundary surface with the second cladding layer is 0.005% or more. 3. The optical fiber preform according to claim 1 , wherein a ratio of an outer diameter of the first cladding layer to a diameter of the core portion is 2 to 5. 4. The optical fiber preform according to claim 1 , wherein the first cladding layer has the first refractive index profile in an entire region between the core portion and the second cladding layer. 5. The optical fiber preform according to claim 1 , wherein the first cladding layer has a second refractive index profile provided at least near a boundary surface with the core portion and having a profile such that a refractive index difference between a refractive index of the first cladding layer and a refractive index of the core portion decreases in accordance with a reduction in a distance from the boundary surface with the core portion. 6. An optical fiber comprising: a core portion made of glass; a first cladding layer formed on an outer periphery of the core portion and having fluorine added thereto to have a refractive index lower than a highest refractive index in the core portion; and a second cladding layer formed on an outer periphery of the first cladding layer and made of glass having a higher softening point and a higher refractive index as compared with the first cladding layer, wherein the first cladding layer has a first refractive index profile provided at least near a boundary surface with the second cladding layer and having a profile such that a refractive index difference between a refractive index of the first cladding layer and a refractive index of the second cladding layer decreases in accordance with a reduction in a distance from the boundary surface with the second cladding layer, when a relative refractive-index difference between a highest refractive index of the core portion and the refractive index of the second cladding layer is Δ 11 , and a relative refractive-index difference between a lowest refractive index of the first cladding layer and the refractive index of the second cladding layer is Δ 12 , a value of Δ 11 is 0.35% to 0.5% and a value of Δ 12 is −0.15% to −0.03%%, and wherein the first cladding layer has the first refractive index profile in a region having a width that is 20% or more of an outer diameter of the first cladding layer from the boundary surface with the second cladding layer in a radial direction of the first cladding layer, and wherein when a relative refractive-index difference between a highest refractive index and a lowest refractive index in the first refractive index profile of the first cladding layer is Δ 13 , a value of Δ 13 is 0.005% to 0.02%. 7. The optical fiber according to claim 6 , wherein a relative refractive-index difference between a portion of the first cladding layer with a lowest refractive index and a boundary surface with the second cladding layer is 0.005% or more. 8. The optical fiber according to claim 6 , wherein a ratio of an outer diameter of the first cladding layer to a diameter of the core portion is 2 to 5. 9. The optical fiber according to claim 6 , wherein the first cladding layer has the first refractive index profile in an entire region between the core portion and the second cladding layer. 10. The optical fiber according to claim 6 , wherein the first cladding layer has a second refractive index profile provided at least near a boundary surface with the core portion and having a profile such that a refractive index difference between a refractive index of the first cladding layer and a refractive index of the core portion decreases in accordance with a reduction in a distance from the boundary surface with the core portion. 11. The optical fiber according to claim 6 , wherein a mode field diameter of the optical fiber is 8.6 μm to 9.2 μm and a cut-off wavelength of the optical fiber is 1260 nm or less. 12. The optical fiber according to claim 6 , wherein a relative refractive-index difference between a portion of the first cladding layer with a lowest refractive index and a boundary surface with the second cladding layer is 0.02% or less. 13. The optical fiber preform according to claim 1 , wherein when a relative refractive-index difference between the highest refractive index in the first refractive index profile and the second cladding layer is Δ 14 , a value of Δ 14 is 0.02% or less. 14. The optical fiber according to claim 6 , wherein when a relative refractive-index difference between the highest refractive index in the first refractive index profile and the second cladding layer is Δ 14 , a value of Δ 14 is 0.02% or less.