Laser amplification device

The invention claimed is: 1. A laser amplification device comprising: a planar waveguide laser amplifier comprising reflection films on a side face of a planar waveguide on which laser beams are incident and on another side face of the planar waveguide opposite to the side face of the planar waveguide on which the laser beams are incident; and a laser unit to simultaneously input plural laser beams into the planar waveguide laser amplifier, wherein in the planar waveguide laser amplifier, excitation light is incident on the another side face of the planar waveguide on which the reflection films are not provided, and the laser beams reflected by the reflection films are amplified and outputted. 2. The laser amplification device according to claim 1 , wherein the laser unit inputs, into the planar waveguide laser amplifier, the plural laser beams at different angles thereto or from different side faces thereof. 3. The laser amplification device according to claim 1 , wherein the laser unit produces the plural laser beams by dividing, with a splitter, a laser beam outputted from a single signal beam laser. 4. The laser amplification device according to claim 3 , wherein the laser unit is provided with a half-wave plate into which one of the plural laser beams that the splitter produces by dividing is inputted. 5. The laser amplification device according to claim 1 , wherein the plural laser beams have different wavelengths. 6. The laser amplification device according to claim 1 , wherein the planar waveguide laser amplifier includes a plate-shaped laser medium and clads formed on the top and bottom faces of the plate-shaped laser medium, and the plural laser beams are totally reflected on the clads formed on the top and bottom faces to be confined within the plate-shaped laser medium. 7. The laser amplification device according to claim 6 , wherein the plural laser beams follow different paths in the plate-shaped laser medium. 8. The laser amplification device according to claim 7 , wherein the plate-shaped laser medium is excited by the excitation light, and an anti-reflection film is provided on the side face of a planar waveguide to which the laser beams are inputted in the planar waveguide laser amplifier. 9. The laser amplification device according to claim 1 , wherein the plural laser beams are polarized in polarization directions orthogonal to each other and have different wavelengths, and the laser medium included in the planar waveguide laser amplifier has a maximum gain at a different wavelength depending on the polarization directions of the inputted laser beams.