Optical fiber

The invention claimed is: 1. An optical fiber comprising: a core extending along a fiber axis and mainly comprised of silica glass; a cladding surrounding the core and mainly comprised of silica glass, the cladding having a refractive index lower than a refractive index of the core; and a coating layer comprised of a resin material, the coating layer surrounding the cladding, wherein, in a glass region including a boundary between the core and the cladding, a local sound velocity decreases in a direction from a side of the core toward a side of the cladding, at least in the cladding, the local sound velocity changes continuously in a radial direction from the fiber axis toward an outer peripheral surface of the cladding, and a Brillouin gain of a light beam guided by a fundamental mode has a line width of 60 MHz or more. 2. The optical fiber according to claim 1 , wherein a concentration of fluorine in the cladding is higher than a concentration of fluorine in the core, and the cladding contains a metallic dopant that reduces sound velocity, and a concentration of the metallic dopant in the cladding decreases continuously in the radial direction. 3. The optical fiber according to claim 2 , wherein the optical fiber has an edge portion closest to the fiber axis and being a part of a doped region in which a concentration of the metallic dopant drops in the cladding to 0.1 times a concentration of the metallic dopant at the boundary, and a position of the edge portion is separated from the boundary by 5 μm or more in the radial direction. 4. The optical fiber according to claim 3 , wherein the concentration of the metallic dopant at the boundary is 0.1 ppm or higher. 5. The optical fiber according to claim 1 , wherein a concentration of fluorine in the cladding is higher than a concentration of fluorine in the core, and both the core and the cladding contain a metallic dopant that increases sound velocity, and a concentration of the metallic dopant in the core and the cladding decreases continuously in the radial direction. 6. The optical fiber according to claim 1 , wherein the core is provided without substantially containing GeO 2 . 7. The optical fiber according to claim 1 , wherein a minimum transmission loss of the light beam guided by the fundamental mode is 0.17 dB/km or less. 8. The optical fiber according to claim 1 , wherein the coating layer includes a plurality of layers, and a loss tangent tan δ in an innermost layer of the plurality of layers is 0.3 or more.