Laser adjustment method and laser source device

What is claimed is: 1. A laser adjustment method in a laser source device including an excitation light source emitting excitation light; a laser medium receiving the excitation light and generating fundamental wave light; a nonlinear optical crystal converting the fundamental wave light to harmonic light having a desired wavelength; an etalon allowing light of a predetermined wavelength to pass; a resonator housing accommodating the laser medium, the nonlinear optical crystal, and the etalon on an interior of the resonator housing; a first temperature adjuster controlling temperatures of the laser medium and the nonlinear optical crystal; a second temperature adjuster controlling a temperature of the etalon; and a controller controlling the first temperature adjuster and the second temperature adjuster, the laser adjustment method comprising: a first adjustment process comprising: detecting, using a light detector, optical intensity and wavelength of the harmonic light, and adjusting, using the first temperature adjuster, the temperatures of the laser medium and the nonlinear optical crystal such that the detected wavelength of the harmonic light approaches a desired wavelength and such that the optical intensity of the harmonic light reaches at least a first predetermined value corresponding to the maximum output signal output from the light detector; and a second adjustment process comprising: detecting, after the first adjustment process and using the light detector, the optical intensity and wavelength of the harmonic light, and adjusting the angle of the etalon using an etalon angle controller and subsequently adjusting, using the second temperature adjuster, the temperature of the etalon such that the detected wavelength of the harmonic light approaches the desired wavelength and such that the optical intensity of the harmonic light reaches at least an optical intensity for the detected wavelength of the harmonic light detected by the light detector, while maintaining the adjusted temperatures of the laser medium and the nonlinear optical crystal based on a control signal received from the controller. 2. The laser adjustment method according to claim 1 , wherein the laser source device further includes a third temperature adjuster controlling a temperature of the resonator housing, the laser adjustment method further comprising maintaining, using the third temperature adjuster, the temperature of the resonator housing at a predefined reference temperature. 3. The laser adjustment method according to claim 2 , wherein: the resonator housing further includes supports supporting each of the laser medium, the nonlinear optical crystal, and the etalon, and the resonator housing and supports are constructed of a material having a thermal conductivity of at least 170 W/mK. 4. The laser adjustment method according to claim 3 , wherein the resonator housing and the supports are constructed of beryllium copper. 5. The laser adjustment method according to claim 4 , wherein the light detector includes: an absorption cell which receives the harmonic light emitted from the resonator housing and which absorbs light having a predetermined wavelength; and a detector which receives the harmonic light passing through the absorption cell and outputs an output signal, wherein the first adjustment process and the second adjustment process respectively control the first temperature adjuster and the second temperature adjuster such that a wavelength of saturated absorption lines of the absorption cell, based on the output signal from the detector, match the wavelength of the harmonic light. 6. The laser adjustment method according to claim 3 , wherein the light detector includes: an absorption cell which receives the harmonic light emitted from the resonator housing and which absorbs light having a predetermined wavelength; and a detector which receives the harmonic light passing through the absorption cell and outputs an output signal, wherein the first adjustment process and the second adjustment process respectively control the first temperature adjuster and the second temperature adjuster such that a wavelength of saturated absorption lines of the absorption cell, based on the output signal from the detector, match the wavelength of the harmonic light. 7. The laser adjustment method according to claim 2 , wherein the light detector includes: an absorption cell which receives the harmonic light emitted from the resonator housing and which absorbs light having a predetermined wavelength; and a detector which receives the harmonic light passing through the absorption cell and outputs an output signal, wherein the first adjustment process and the second adjustment process respectively control the first temperature adjuster and the second temperature adjuster such that a wavelength of saturated absorption lines of the absorption cell, based on the output signal from the detector, match the wavelength of the harmonic light. 8. The laser adjustment method according to claim 1 , wherein: the resonator housing further includes supports supporting each of the laser medium, the nonlinear optical crystal, and the etalon, and the resonator housing and supports are constructed of a material having a thermal conductivity of at least 170 W/mK. 9. The laser adjustment method according to claim 8 , wherein the resonator housing and the supports are constructed of beryllium copper. 10. The laser adjustment method according to claim 9 , wherein the light detector includes: an absorption cell which receives the harmonic light emitted from the resonator housing and which absorbs light having a predetermined wavelength; and a detector which receives the harmonic light passing through the absorption cell and outputs an output signal, wherein the first adjustment process and the second adjustment process respectively control the first temperature adjuster and the second temperature adjuster such that a wavelength of saturated absorption lines of the absorption cell, based on the output signal from the detector, match the wavelength of the harmonic light. 11. The laser adjustment method according to claim 8 , wherein the light detector includes: an absorption cell which receives the harmonic light emitted from the resonator housing and which absorbs light having a predetermined wavelength; and a detector which receives the harmonic light passing through the absorption cell and outputs an output signal, wherein the first adjustment process and the second adjustment process respectively control the first temperature adjuster and the second temperature adjuster such that a wavelength of saturated absorption lines of the absorption cell, based on the output signal from the detector, match the wavelength of the harmonic light. 12. The laser adjustment method according to claim 1 , wherein the light detector includes: an absorption cell which receives the harmonic light emitted from the resonator housing and which absorbs light having a predetermined wavelength; and a detector which receives the harmonic light passing through the absorption cell and outputs an output signal, wherein the first adjustment process and the second adjustment process respectively control the first temperature adjuster and the second temperature adjuster such that a wavelength of saturated absorption lines of the absorption cell, based on the output signal from the detector, match the wavelength of the harmonic light. 13. A laser source device comprising: an excitation light source configured to emit excitation light; a laser medium configured to receive the excitation light and generate fundamental