Solid-state laser system

What is claimed is: 1. A solid-state laser system, comprising: a first solid-state laser unit configured to output first pulsed laser light with a first wavelength; a second solid-state laser unit including a semiconductor optical amplifier and configured to output second pulsed laser light with a second wavelength; a wavelength conversion system where the first pulsed laser light and the second pulsed laser light enter; and a controller coupled to the first solid-state laser unit and the semiconductor optical amplifier, and configured to control the first solid-state laser unit and the semiconductor optical amplifier to cause the first pulsed laser light and the second pulsed laser light to be continuously outputted from the first solid-state laser unit and the second solid-state laser unit, respectively, the controller being configured to control the first solid-state laser unit and the semiconductor optical amplifier to cause, while a burst signal from an external unit is on, the first pulsed laser light and the second pulsed laser light to enter the wavelength conversion system at a coincidental timing, thereby causing the wavelength conversion system to output third pulsed laser light with a third wavelength that is converted from the first wavelength and the second wavelength, and being configured to control the first solid-state laser unit and the semiconductor optical amplifier to cause, while the burst signal is off, the first pulsed laser light and the second pulsed laser light to enter the wavelength conversion system at different timings from each other, thereby preventing the wavelength conversion system from outputting the third pulsed laser light, a difference between the different timings being equal to or greater than sum of a pulse width of the first pulsed laser light and a pulse width of the second pulsed laser light. 2. The solid-state laser system according to claim 1 , further comprising a synchronous circuit configured to output, in synchronization with a first trigger signal, a second trigger signal and a third trigger signal, the second trigger signal causing the first pulsed laser light to be outputted from the first solid-state laser unit, and the third trigger signal causing the second pulsed laser light to be outputted from the semiconductor optical amplifier, wherein the controller controls, in synchronization with the burst signal, the synchronous circuit to cause the first pulsed laser light and the second pulsed laser light to enter the wavelength conversion system at the coincidental timing while the burst signal is on, and to cause the first pulsed laser light and the second pulsed laser light to enter the wavelength conversion system at the different timings from each other while the burst signal is off. 3. The solid-state laser system according to claim 1 , wherein the external unit is an exposure apparatus. 4. The solid-state laser system according to claim 1 , wherein the first wavelength is 257.5 nanometers. 5. The solid-state laser system according to claim 1 , wherein the first solid-state laser unit includes a first laser diode and an optical shutter. 6. The solid-state laser system according to claim 5 , wherein the optical shutter trims continuous-wave-oscillated light outputted by the first laser diode into a pulse form. 7. The solid-state laser system according to claim 5 , wherein the optical shutter is coupled to the controller, and the controller controls a timing at which the optical shutter synchronizes with the semiconductor optical amplifier. 8. The solid-state laser system according to claim 5 , wherein the first laser diode outputs light with a wavelength of 1030 nanometers. 9. The solid-state laser system according to claim 1 , wherein the first solid-state laser unit includes an LBO crystal and a CLBO crystal. 10. The solid-state laser system according to claim 1 , wherein the second wavelength is 1554 nanometers. 11. The solid-state laser system according to claim 1 , wherein the second solid-state laser unit includes a second laser diode. 12. The solid-state laser system according to claim 11 , wherein the semiconductor optical amplifier amplifies continuous-wave-oscillated light outputted by the second laser diode into a pulse form. 13. The solid-state laser system according to claim 11 , wherein the second laser diode outputs light with a wavelength of 1554 nanometers. 14. The solid-state laser system according to claim 1 , wherein the wavelength conversion system includes two CLBO crystals. 15. The solid-state laser system according to claim 14 , wherein the two CLBO crystals each output a sum frequency of light that has entered corresponding one of the two CLBO crystals. 16. The solid-state laser system according to claim 1 , wherein the third wavelength is 193.4 nanometers.