Wavelength-tunable light source and wavelength-tunable light source module

What is claimed is: 1. A wavelength-tunable light source, comprising: an optical coupling circuit that has an input portion connected to an output end of at least one input waveguide, has output portions connected to input ends of two output waveguides, and outputs light input from said at least one input waveguide to said two output waveguides; a semiconductor laser connected to an input end of said at least one input waveguide; a first optical amplifier and a second optical amplifier connected to corresponding output ends of said two output waveguides; and a first output portion and a second output portion respectively outputting the light passing through said first optical amplifier and said second optical amplifier, wherein a first arm portion and a second arm portion have an arrangement distance therebetween greater than a distance between said input ends of said two output waveguides and greater than a distance between an output end of said first output portion and an output end of said second output portion, said first arm portion forming a traveling path of light from one of said two output waveguides to said first output portion through said first optical amplifier, said second arm portion forming a traveling path of light from the other one of said two output waveguides to said second output portion through said second optical amplifier, and said first optical amplifier and said second optical amplifier have curved portions in which said first output portion and said second output portion are curved in a direction toward each other, and said first optical amplifier and said second optical amplifier respectively output light from said output end of said first output portion and said output end of said second output portion. 2. The wavelength-tunable light source according to claim 1 , wherein at least one of said first optical amplifier and said second optical amplifier has a multistage configuration including a plurality of optical amplifiers connected in series, said plurality of optical amplifiers being individually controllable. 3. The wavelength-tunable light source according to claim 2 , wherein said two output waveguides are provided such that a distance between the output ends of said two output waveguides is greater than a distance between the input ends thereof, and a final-stage optical amplifier of one of said first optical amplifier and said second optical amplifier having said multistage configuration and the other one of said first optical amplifier and said second optical amplifier have curved portions in which said first output portion and said second output portion are curved in the direction toward each other. 4. The wavelength-tunable light source according to claim 2 , wherein said two output waveguides are provided such that a distance between the output ends of said two output waveguides is the same as a distance between the input ends thereof, said first optical amplifier and said second optical amplifier have said multistage configuration, and said first optical amplifier and said second optical amplifier each include a first-stage optical amplifier provided such that a distance between output ends of the first-stage optical amplifiers is greater than a distance between input ends thereof. 5. A wavelength-tunable light source module, comprising: the wavelength-tunable light source according to claim 2 ; and a current controller of optical amplifiers, wherein said first optical amplifier and said second optical amplifier have said multistage configuration, and said current controller controls current such that a pair of optical amplifiers having a distance therebetween shorter than said arrangement distance have a drive current density lower than that of a pair of optical amplifiers keeping said arrangement distance in said first optical amplifier and said second optical amplifier. 6. A wavelength-tunable light source module, comprising: the wavelength-tunable light source according to claim 2 ; and a current controller of optical amplifiers, wherein said first optical amplifier and said second optical amplifier have said multistage configuration, and said current controller controls current such that one of a pair of optical amplifiers having a distance therebetween shorter than said arrangement distance has a drive current density lower than that of a pair of optical amplifiers keeping said arrangement distance in said first optical amplifier and said second optical amplifier. 7. A wavelength-tunable light source module, comprising: the wavelength-tunable light source according to claim 2 ; and a current controller of optical amplifiers, wherein at least one of said first optical amplifier and said second optical amplifier has said multistage configuration, and said current controller performs current control whether a current is injected into a final-stage optical amplifier of said first optical amplifier or said second optical amplifier having said multistage configuration to control ON and OFF of light output from said first output portion and said second output portion. 8. The wavelength-tunable light source according to claim 1 , wherein said wavelength-tunable light source is formed on a semiconductor substrate, and said arrangement distance is set greater than a thickness of said semiconductor substrate. 9. The wavelength-tunable light source according to claim 1 , wherein said wavelength-tunable light source is formed in a semiconductor laminated film laminated on a semiconductor substrate, said wavelength-tunable light source further comprising an absorption layer that is provided along at least one of said first arm portion and said second arm portion and that absorbs emitted light from said first arm portion and said second arm portion, said absorption layer being located in the same layer and comprising the same material as said first arm portion and said second arm portion. 10. The wavelength-tunable light source according to claim 1 , wherein said wavelength-tunable light source is formed in a semiconductor laminated film laminated on a semiconductor substrate, said wavelength-tunable light source further comprising an absorption layer that is linearly provided in a middle portion between said first arm portion and said second arm portion across the entire region in which said first arm portion and said second arm portion extend and that absorbs emitted light from said first arm portion and said second arm portion, said absorption layer being located in the same layer and comprising the same material as said first arm portion and said second arm portion. 11. The wavelength-tunable light source according to claim 1 , wherein said wavelength-tunable light source is formed in a semiconductor laminated film laminated on a semiconductor substrate, said wavelength-tunable light source further comprising a groove provided along at least one of said first arm portion and said second arm portion so as to penetrate said semiconductor laminated layer to reach said semiconductor substrate. 12. The wavelength-tunable light source according to claim 1 , wherein said wavelength-tunable light source is formed in a semiconductor laminated film laminated on a semiconductor substrate, said wavelength-tunable light source further comprising a groove that is linearly provided in a middle portion between said first arm portion and said second arm portion across the entire region in which said first arm portion and said second arm portion extend and that penetrates said semiconductor laminated film to reach said semiconductor substrate. 13. A wavelength-tunable light source module, comprising th