Fiber laser apparatus and method of manufacturing amplifying coil

What is claimed is: 1. A fiber laser apparatus, comprising: a pumping light source which launches pumping light; an amplifying optical fiber which includes a core and a noncircular cladding, and absorbs the pumping light to launch laser light; an amplifying coil which has a configuration around which the amplifying optical fiber is wound; a first reflector which is provided on an input side of the amplifying coil and is configured to reflect the laser light toward the amplifying coil; and a second reflector which is provided on a launching side of the amplifying coil, has a lower reflectance than a reflectance of the first reflector, and is configured to reflect the laser light toward the amplifying coil; wherein in the amplifying coil, the amplifying optical fiber is wound with a center axis of the amplifying optical fiber as a center in a state of being twisted in a peripheral direction of the amplifying optical fiber, and the wound amplifying optical fiber is fixed and integrated, wherein a twist amount of the amplifying optical fiber gradually increases in a direction from the first reflector side toward the second reflector side, and wherein the twist amount is number of turns of the amplifying optical fiber around a longitudinal axis of the amplifying optical fiber per unit length of the amplifying optical fiber. 2. The fiber laser apparatus according to claim 1 , wherein in the amplifying coil, a portion between adjacent amplifying optical fibers is filled with a resin. 3. The fiber laser apparatus according to claim 1 , further comprising: a cooling member which cools the amplifying coil. 4. The fiber laser apparatus according to claim 1 , wherein the twist amount of the amplifying optical fiber is 3 turns/m or less. 5. A method of manufacturing an amplifying coil, comprising: winding an amplifying optical fiber in a coil shape while lowering a portion of the amplifying optical fiber onto a bottom surface of a circular recessed portion of a base by: moving the amplifying optical fiber to the outer side of the recessed portion by lowering the portion of the amplifying optical fiber after a distal end of the amplifying optical fiber comes into contact with the bottom surface of the recessed portion, moving the distal end of the amplifying optical fiber along a side wall of the recessed portion by further lowering the portion of the amplifying optical fiber to wind the amplifying optical fiber circularly, causing the distal end of the amplifying optical fiber to collide with the amplifying optical fiber on the outermost first turn by further lowering the portion of the amplifying optical fiber to cause the distal end of the amplifying optical fiber to enter the inside of the amplifying optical fiber on the outermost first turn such that the amplifying optical fiber is twisted around a longitudinal axis of the amplifying optical fiber; and filling a portion between adjacent amplifying optical fibers with a resin to fix the amplifying optical fibers to each other. 6. A method of manufacturing an amplifying coil, comprising: winding an amplifying optical fiber drawn out from a bobbin around a rotary jig while the amplifying optical fiber being twisted around a longitudinal axis of the amplifying optical fiber to wind the amplifying optical fiber in a coil shape; and filling a portion between adjacent amplifying optical fibers with a resin to fix the amplifying optical fibers to each other, wherein when the amplifying optical fiber is wound in a coil shape, a rotation axis of the bobbin and a rotation axis of the rotary jig are disposed to be non-parallel to each other, and the rotation axis of the bobbin and the rotation axis of the rotary jig are disposed to be non-parallel to each other so that the amplifying optical fiber is wound around the rotary jig while being twisted around the longitudinal axis of the amplifying optical fiber. 7. The method of manufacturing the amplifying coil according to claim 5 , wherein after a distal end of the amplifying optical fiber comes into contact with the bottom surface, the distal end moves toward a side wall of the recessed portion.