Optical amplifier

The invention claimed is: 1. An optical amplifier comprising: an optical resonator which includes an amplification fiber that is capable of amplifying signal light having one or more propagation modes and resonates at least one propagation mode that is included in the signal light amplified by the amplification fiber; an excitation light source which outputs excitation light for exciting the amplification fiber; and a multiplexer which multiplexes the signal light and the excitation light, wherein the optical resonator includes a gain clamp setting unit which sets gain clamp for at least one propagation mode among a plurality of propagation modes resonating in the optical resonator, wherein the gain clamp setting unit includes a mode selector that selectively propagates the propagation mode for setting the gain clamp from among the plurality of propagation modes resonating in the optical resonator, and an optical attenuator that attenuates a light intensity of the propagation mode selected by the mode selector. 2. The optical amplifier according to claim 1 , wherein the mode selector is a single mode fiber. 3. An optical amplifier comprising: an optical resonator which includes an amplification fiber that is capable of amplifying signal light having one or more propagation modes and resonates at least one propagation mode that is included in the signal light amplified by the amplification fiber; an excitation light source which outputs excitation light for exciting the amplification fiber; and a multiplexer which multiplexes the signal light and the excitation light, wherein the optical resonator includes a gain clamp setting unit which sets gain clamp for at least one propagation mode among a plurality of propagation modes resonating in the optical resonator, wherein the gain clamp setting unit includes a mode demultiplexer that separates the propagation mode resonating in the optical resonator to respective modes, an optical attenuator that is capable of adjusting a light intensity of each port after mode-demultiplexing by the mode demultiplexer, and a mode multiplexer that multiplexes light passing through the optical attenuator. 4. An optical amplifier comprising: an optical resonator which includes an amplification fiber that is capable of amplifying signal light having one or more propagation modes and resonates at least one propagation mode that is included in the signal light amplified by the amplification fiber; an excitation light source which outputs excitation light for exciting the amplification fiber; and a multiplexer which multiplexes the signal light and the excitation light, wherein the optical resonator includes a gain clamp setting unit which sets gain clamp for at least one propagation mode among a plurality of propagation modes resonating in the optical resonator, wherein the optical resonator includes a light source that generates light having a wavelength different from a wavelength of the signal light, and an optical coupler that couples the light from the light source, to the optical resonator, wherein the gain clamp setting unit includes a mode converter that converts the light from the light source, into the propagation mode for setting the gain clamp, and wherein the mode converter is provided between the light source and the optical coupler. 5. An optical amplifier comprising: an optical resonator which includes an amplification fiber that is capable of amplifying signal light having one or more propagation modes and resonates at least one propagation mode that is included in the signal light amplified by the amplification fiber; an excitation light source which outputs excitation light for exciting the amplification fiber; and a multiplexer which multiplexes the signal light and the excitation light, wherein the optical resonator includes a gain clamp setting unit which sets gain clamp for at least one propagation mode among a plurality of propagation modes resonating in the optical resonator, wherein the optical resonator further includes a plurality of light sources that generate light having a wavelength different from a wavelength of the signal light, and an optical coupler that couples the light from the plurality of light sources, to the optical resonator, and wherein the gain clamp setting unit includes a mode converter that is inserted between at least one of the plurality of light sources and the optical coupler and converts the light from the plurality of light sources, into a propagation mode for setting gain clamp, and an optical attenuator that is inserted in the optical resonator and attenuates a light intensity of at least one propagation mode converted by the mode converter.