Tapered roller bearing

The invention claimed is: 1. A tapered roller bearing comprising: an outer ring having an outer ring rolling contact surface on an inner circumferential surface; an inner ring having an inner ring rolling contact surface on an outer circumferential surface, having a small collar and a large collar formed on both sides of said inner ring rolling contact surface, and arranged on an inner side of said outer ring; a plurality of tapered rollers arranged between said outer ring rolling contact surface and said inner ring rolling contact surface; and a holder having a pocket housing each of said tapered rollers, at least one of bearing components including said outer ring, said inner ring and said tapered roller being made of steel consisting of 0.6 mass % or more and 1.50 mass % or less of carbon, 0.15 mass % or more and 2.50 mass % or less of silicon, 0.30 mass % or more and 1.50 mass % or less of manganese, and 0.20 mass % or more and 2.00 mass % or less of chromium, with the rest made up of iron, unavoidable impurities, and a nitrogen concentration in a surface layer portion under a contact surface in contact with another component being 0.3 mass % or more, said holder including a small annular portion continuously extending on a side of a small diameter end face of said tapered roller, a large annular portion continuously extending on a side of a large diameter end face of said tapered roller, and a plurality of column portions coupling said small annular portion and said large annular portion, said pocket having a trapezoidal shape in which a portion housing a small diameter side of said tapered roller is located on a reduced width side while a portion housing a large diameter side of said tapered roller is located on an increased width side, and each of said column portions on said reduced width side of said pocket being provided with a cutout. 2. The tapered roller bearing according to claim 1 , wherein said large collar includes a large collar surface that is in sliding contact with said large diameter end face of said tapered roller, and the nitrogen concentration in each of said surface layer portion under said large diameter end face and said surface layer portion under said large collar surface is 0.3 mass % or more. 3. The tapered roller bearing according to claim 1 , wherein in at least one of the bearing components including said outer ring, said inner ring and said tapered roller, said surface layer portion under said contact surface includes five or more carbonitrides each having a diameter of 0.5 μm or less that are present per 100 μ2 in a cross section perpendicular to said contact surface. 4. The tapered roller bearing according to claim 1 , wherein in at least one of the bearing components including said outer ring, said inner ring and said tapered roller, a retained austenite amount in a region extending from said contact surface to a depth of 50 μm is 20 vol % or more. 5. The tapered roller bearing according to claim 1 , wherein a nitrogen concentration in an inner diameter surface of said inner ring is 0.05 mass % or less. 6. The tapered roller bearing according to claim 1 , wherein said tapered roller bearing supports a rotation member, which rotates within a differential or a transmission, so as to be rotatable relative to another member arranged adjacent to said rotation member. 7. The tapered roller bearing according to claim 1 , wherein a small annular portion on the reduced width side of said pocket is provided with a cutout. 8. The tapered roller bearing according to claim 1 , wherein each said column portion on the increased width side of said pocket is provided with a cutout. 9. The tapered roller bearing according to claim 8 , wherein a total area of the cutout provided in each said column portion on the reduced width side of said pocket is greater than a total area of said cutout provided in each said column portion on said increased width side of said pocket. 10. The tapered roller bearing according to claim 1 , wherein the small annular portion of said holder is provided with a collar facing said small collar of said inner ring, and a gap between said collar of said small annular portion and said small collar of said inner ring is 2.0% or less of an outer diameter of said small collar of said inner ring. 11. The tapered roller bearing according to claim 1 , wherein said tapered roller has a surface provided with a recess formed in a concave shape, and said surface of said tapered roller has a surface roughness (Ryni) of 0.4 μm or more and 1.0 μm or less, and an Sk value of −1.6 or less. 12. A tapered roller bearing comprising: an outer ring having an outer ring rolling contact surface on an inner circumferential surface; an inner ring having an inner ring rolling contact surface on an outer circumferential surface, having a small collar and a large collar formed on both sides of said inner ring rolling contact surface, and arranged on an inner side of said outer ring; a plurality of tapered rollers arranged between said outer ring rolling contact surface and said inner ring rolling contact surface; and a holder having a pocket housing each of said tapered rollers, at least one of bearing components including said outer ring, said inner ring and said tapered roller being made of steel containing 0.6 mass % or more and 1.50 mass % or less of carbon, 0.15 mass % or more and 2.50 mass % or less of silicon, 0.30 mass % or more and 1.50 mass % or less of manganese, and 0.20 mass % or more and 2.00 mass % or less of chromium, and further containing at least one of 0.5 mass % or less of nickel and 0.2 mass % or less of molybdenum, with the rest made up of iron, unavoidable impurities, and a nitrogen concentration in a surface layer portion under a contact surface in contact with another component being 0.3 mass % or more, said holder including a small annular portion continuously extending on a side of a small diameter end face of said tapered roller, a large annular portion continuously extending on a side of a large diameter end face of said tapered roller, and a plurality of column portions coupling said small annular portion and said large annular portion, said pocket having a trapezoidal shape in which a portion housing a small diameter side of said tapered roller is located on a reduced width side while a portion housing a large diameter side of said tapered roller is located on an increased width side, each of said column portions on said reduced width side of said pocket being provided with a cutout, at least one of the bearing components including said outer ring, said inner ring, and said tapered roller has an entire average retained austenite amount of 20 vol % or less. 13. A tapered roller bearing comprising: an outer ring having an outer ring rolling contact surface on an inner circumferential surface; an inner ring having an inner ring rolling contact surface on an outer circumferential surface, having a small collar and a large collar formed on both sides of said inner ring rolling contact surface, and arranged on an inner side of said outer ring; a plurality of tapered rollers arranged between said outer ring rolling contact surface and said inner ring rolling contact surface; and a holder having a pocket housing each of said tapered rollers, at least said tapered roller among said outer ring, said inner ring and said tapered roller being made of quench-hardened steel containing 0.90 mass % or more and 1.05 mass % or less of carbon, 0.15 mass % or more and 0.35 mass % or less of silicon, 0.01 mass % or more and 0.50 mass % or less of manganese, and 1.30 mass % or more and 1.