Laser light source apparatus and temperature control method of wavelength conversion element in laser light source apparatus

The invention claimed is: 1. A laser light source apparatus comprising: a semiconductor laser; a lighting circuit, which lights the semiconductor laser; a wavelength conversion element which carries out wavelength conversion of laser light emitted from the semiconductor laser; a detection unit which detects the temperature of the wavelength conversion element; a heating unit which heats the wavelength conversion element; a control unit which controls the lighting circuit and the heating unit, wherein the control unit has a temperature control unit which controls the amount of electric supply to the heating unit based on a difference between temperature detected by the detection unit and a setting temperature, and which performs control so that the temperature of the wavelength conversion element turns into the setting temperature; an optimal temperature setting unit which, without using an output from the wavelength conversion element, obtains an optimal setting temperature at which the amount of electric power supplied to the heating unit turns into a local maximum, based on the amount of electric power supplied to the heating unit at each setting temperature measured while changing the setting temperature when the wavelength conversion element is irradiated with laser light, wherein the control unit controls the lighting circuit and the heating unit so that the temperature of the wavelength conversion element turns into the optimal setting temperature. 2. A laser light source apparatus according to claim 1 , further comprising an apparatus temperature detection unit which detects the temperature of the semiconductor laser or the temperature of a substrate where the semiconductor laser is provided, the control unit further including an optimal temperature sequential setting unit, which calculates a setting temperature compensation amount with respect to the optimal setting temperature by using apparatus temperature and/or condition of electric power applied to the laser, as a parameter, and which periodically and sequentially corrects the setting temperature to the optimal setting temperature. 3. A method for controlling temperature of a wavelength conversion unit in a laser light source apparatus comprising a semiconductor laser; a lighting circuit, which lights the semiconductor laser; a wavelength conversion element which carries out wavelength conversion of laser light emitted from this semiconductor laser; a detection unit which detects the temperature of the wavelength conversion element; and a heating unit which heats the wavelength conversion element, wherein the amount of electric power supplied to the heating unit is controlled based on a difference of temperature detected by the detection unit and setting temperature, and control is performed so that the temperature of the wavelength conversion element turns into the setting temperature, comprising the following steps of: a first step of measuring the amount of electric power supplied to the heating unit at each setting temperature while changing the setting temperature when the wavelength conversion element is irradiated with laser light, and, without using an output from the wavelength conversion element, obtaining the temperature at which the amount of electric power supply supplied to the heating unit turns into a local maximum, based on the measured amount of electric power supplied to the heating unit at each setting temperature, and setting the temperature as an optimal setting temperature; a second step of setting the temperature as the optimal setting temperature; and a third step of controlling the amount of electric power supplied to the heater so that the temperature of the wavelength conversion element turns into the optimal setting temperature. 4. A method for controlling temperature of the wavelength conversion unit in a laser light source apparatus according to claim 3 , further comprising a step of detecting the apparatus temperature which is the temperature of the semiconductor laser or the temperature of a substrate where the semiconductor laser is provided; setting the temperature set in the first step as a first optimal setting temperature in the apparatus temperature; calculating a setting temperature compensation amount by making, as a parameter, apparatus temperature or conditions of the electric power added to laser at different apparatus temperature therefrom; and a step of periodically and sequentially correcting the setting temperature set in the second step to the optimal setting temperature.