Polarization-maintaining optical fiber

What is claimed is: 1. A polarization-maintaining optical fiber comprising: a core; a pair of stress-applying parts disposed at both sides of the core at a distance; and a cladding coat that surrounds the core and the paired stress-applying parts, wherein the cladding coat comprises: a first cladding coat disposed around the core; a second cladding coat disposed around the first cladding coat; and a third cladding coat disposed around the second cladding coat, wherein a maximum refractive index of the core is greater than each of maximum refractive indexes of the first cladding coat, the second cladding coat, and the third cladding coat, a maximum refractive index of the second cladding coat is lower than each of maximum refractive indexes of the first cladding coat and the third cladding coat, a coefficient of thermal expansion of each of stress-applying parts is greater than a coefficient of thermal expansion of the cladding coat, and each stress-applying part is provided to cut the second cladding coat at a position in a circumferential direction, and wherein each stress-applying part is provided to protrude from a boundary between the second cladding coat and the third cladding coat in a radial-outer direction, and each stress-applying part is in contact with the first cladding coat, the second cladding coat, and the third cladding coat. 2. The polarization-maintaining optical fiber according to claim 1 , wherein the stress-applying part is provided to protrude from a boundary between the first cladding coat and the second cladding coat in a radial-inner direction. 3. The polarization-maintaining optical fiber according to claim 1 , wherein where a radius of the core is represented as r 1 and a radius of an outer edge of the first cladding coat is represented as r 2 , a value of r 2 /r 1 is in a range of 2.5 to 4.5, a relative refractive index difference of the core with reference to the maximum refractive index of the third cladding coat is in a range of 0.20% to 0.70%, where a radius with reference to a center of the core is represented as r, a relative refractive index difference in the radius r with reference to the maximum refractive index of the third cladding coat is represented as Δn(r) and a radius of an inner edge of the second cladding coat is represented as r 3 , a refractive index volume V of the second cladding coat expressed by the following numerical expression (1) is in a range of 25%·μm 2 to 110%·μm 2 , (Expression 1) V= 2∫ r2 r3 |Δn ( r )|· rdr   (1) a diameter of each stress-applying part is in a range of 30 to 40 and a distance between the paired stress-applying parts is less than or equal to 20 μm. 4. The polarization-maintaining optical fiber according to claim 3 , wherein the refractive index volume V of the second cladding coat is greater than or equal to 50%·μm 2 . 5. The polarization-maintaining optical fiber according to claim 3 , wherein a relative refractive index difference of the first cladding coat with reference to the maximum refractive index of the third cladding coat is in a range of −0.10% to 0.05%. 6. The polarization-maintaining optical fiber according to claim 3 , wherein a relative refractive index difference of the second cladding coat with reference to the maximum refractive index of the third cladding coat is in a range of −0.60% to −0.20%. 7. The polarization-maintaining optical fiber according to claim 3 , wherein a cut-off wavelength of the polarization-maintaining optical fiber is less than or equal to 1.44 μm, a mode field diameter of the polarization-maintaining optical fiber in an operating wavelength of 1.55 μm is greater than or equal to 7.9 μm, the polarization-maintaining optical fiber propagates light having an operating wavelength of up to 1.65 μm in a single-mode, and in a case where the polarization-maintaining optical fiber is wound around a 10 mm-diameter mandrel 10 times, a bending loss thereof and polarization crosstalk are measured, the measurement value of the bending loss is less than or equal to 0.05 dB, and the measurement value of the polarization crosstalk thereof is less than or equal to −30 dB. 8. The polarization-maintaining optical fiber according to claim 3 , wherein a cut-off wavelength of the polarization-maintaining optical fiber is less than or equal to 1.30 μm, the polarization-maintaining optical fiber propagates light having an operating wavelength of 1.31 μm in a single-mode, a mode field diameter of the polarization-maintaining optical fiber in an operating wavelength of 1.31 μm is greater than or equal to 6.6 μm, and in a case where the polarization-maintaining optical fiber is wound around a 10 mm-diameter mandrel 10 times, a bending loss thereof and polarization crosstalk are measured, the measurement value of the bending loss is less than or equal to 0.05 dB, and the measurement value of the polarization crosstalk thereof is less than or equal to −30 dB. 9. The polarization-maintaining optical fiber according to claim 3 , wherein a cut-off wavelength of the polarization-maintaining optical fiber is less than or equal to 0.97 μm, the polarization-maintaining optical fiber propagates light having an operating wavelength of 0.98 μm in a single-mode, a mode field diameter of the polarization-maintaining optical fiber in an operating wavelength of 0.98 μm is greater than or equal to 4.7 μm, and in a case where the polarization-maintaining optical fiber is wound around a 10 mm-diameter mandrel 10 times, a bending loss thereof and polarization crosstalk are measured, the measurement value of the bending loss is less than or equal to 0.05 dB, and the measurement value of the polarization crosstalk thereof is less than or equal to −30 dB. 10. The polarization-maintaining optical fiber according to claim 3 , wherein a cut-off wavelength of the polarization-maintaining optical fiber is less than or equal to 0.84 μm, the polarization-maintaining optical fiber propagates light having an operating wavelength of 0.85 μm in a single-mode, a mode field diameter of the polarization-maintaining optical fiber in an operating wavelength of 0.85 μm is greater than or equal to 3.9 μm, and in a case where the polarization-maintaining optical fiber is wound around a 10 mm-diameter mandrel 10 times, a bending loss thereof and polarization crosstalk are measured, the measurement value of the bending loss is less than or equal to 0.05 dB, and the measurement value of the polarization crosstalk thereof is less than or equal to −30 dB.