Laser apparatus

What is claimed is: 1. A laser apparatus comprising: a first gain medium; a partially-reflecting mirror placed on a side of one end surface of the first gain medium; a second gain medium; a partially-reflecting mirror placed on a side of one end surface of the second gain medium; a first wavelength selection filter; a second wavelength selection filter; a third wavelength selection filter; a first mirror; and a second mirror, wherein a wavelength of first laser light emitted from the one end surface of the first gain medium is different from a wavelength of second laser light emitted from the one end surface of the second gain medium, wherein each of the first wavelength selection filter, the second wavelength selection filter, and the third wavelength selection filter includes a first input/output port, a second input/output port, a third input/output port, and a fourth input/output port, wherein for light to be selected having a selected wavelength, the first input/output port is connected with the second input/output port, and the third input/output port is connected with the fourth input/output port; for light not to be selected, the first input/output port is connected with the third input/output port, and the second input/output port is connected with the fourth input/output port, wherein the third wavelength selection filter is a wavelength selection filter to select light having wavelengths that cyclically exist in the light, as the light to be selected, wherein another end surface of the first gain medium is connected with the first input/output port of the first wavelength selection filter, wherein another end surface of the second gain medium is connected with the first input/output port of the second wavelength selection filter, wherein the fourth input/output port of the first wavelength selection filter is connected with the first mirror, wherein the fourth input/output port of the second wavelength selection filter is connected with the second mirror, wherein the first input/output port of the third wavelength selection filter is connected with the second input/output port of the first wavelength selection filter, wherein the second input/output port of the third wavelength selection filter is connected with the second input/output port of the second wavelength selection filter. 2. The laser apparatus as claimed in claim 1 , wherein the first wavelength selection filter includes a first ring resonator, to select light having a resonant wavelength in the first ring resonator, wherein the second wavelength selection filter includes a second ring resonator, to select light having a resonant wavelength in the second ring resonator, wherein the third wavelength selection filter includes a third ring resonator, to select light having a resonant wavelength in the third ring resonator. 3. The laser apparatus as claimed in claim 2 , wherein a cycle of the resonance wavelengths in the first ring resonator and a cycle of the resonance wavelengths in the second ring resonator are different from a cycle of the resonance wavelengths in the third ring resonator. 4. The laser apparatus as claimed in claim 2 , wherein the first wavelength selection filter includes a fourth ring resonator in addition to the first ring resonator, a cycle of the resonance wavelengths in the first ring resonator is different from a cycle of the resonance wavelengths in the fourth ring resonator, and the first wavelength selection filter selects a wavelength which is one of the resonance wavelengths of the first ring resonator that coincides with one of resonance wavelengths of the fourth ring resonator, wherein the second wavelength selection filter includes a fifth ring resonator in addition to the second ring resonator, a cycle of the resonance wavelengths in the second ring resonator is different from a cycle of the resonance wavelengths in the fifth ring resonator, and the second wavelength selection filter selects a wavelength which is one of the resonance wavelengths of the second ring resonator that coincides with one of resonance wavelengths of the fifth ring resonator. 5. The laser apparatus as claimed in claim 2 , wherein a full width at half maximum of the resonance wavelength in the first ring resonator is less than or equal to ½ of a difference between a cycle of the resonance wavelengths in the first ring resonator and a cycle of the resonance wavelengths in the third ring resonator, wherein a full width at half maximum of the resonance wavelength in the second ring resonator is less than or equal to ½ of a difference between a cycle of the resonance wavelengths in the second ring resonator and a cycle of the resonance wavelengths in the third ring resonator. 6. The laser apparatus as claimed in claim 2 , wherein cycles of the resonance wavelengths in the first wavelength selection filter and the second wavelength selection filter are minutely shifted from an integer multiple of a cycle of the resonance wavelengths in the third wavelength selection filter. 7. The laser apparatus as claimed in claim 2 , wherein the first mirror and the second mirror are mirrors to reflect the light having the selected wavelengths, respectively. 8. The laser apparatus as claimed in claim 2 , wherein the first ring resonator, the second ring resonator, and the third ring resonator are formed by silicon waveguides, respectively. 9. The laser apparatus as claimed in claim 1 , wherein the first mirror and the second mirror are wavelength selection mirrors to select wavelengths different from each other. 10. The laser apparatus as claimed in claim 1 , wherein the first wavelength selection filter includes a first etalon, to select light having passed through the first etalon, wherein the second wavelength selection filter includes a second etalon, to select light having passed through the second etalon, wherein the third wavelength selection filter includes a third etalon, to select light having passed through the third etalon. 11. The laser apparatus as claimed in claim 1 , wherein the first gain medium is a first semiconductor optical amplifier, wherein the second gain medium is a second semiconductor optical amplifier. 12. The laser apparatus as claimed in claim 1 , further comprising: a first photodetector to detect an amount of light of a part of the first laser light; a second photodetector to detect an amount of light of a part of the first laser light after having passed through a locker etalon; a third photodetector to detect an amount of light of the second laser light; and a control unit to control an oscillation wavelength of the first laser light and an oscillation wavelength of the second laser light, based on the amounts of the light detected by the first photodetector, the second photodetector, and the third photodetector, respectively. 13. A laser apparatus comprising: a first gain medium; a partially-reflecting mirror placed on a side of one end surface of the first gain medium; a second gain medium; a partially-reflecting mirror placed on a side of one end surface of the second gain medium; a first wavelength selection filter; a second wavelength selection filter; a third wavelength selection filter; a first mirror; and a second mirror, wherein a laser resonator is formed having the first gain medium, the first wavelength selection filter, and the third wavelength selection filter disposed on an optical path between the partially-reflecting mirror placed on the side of the one end surface of the first gain medium, and the second mirror, wherein the laser apparatus emits, as first laser light,