Spectral and radiometric calibration using tunable lasers

The invention claimed is: 1. A tunable laser system comprising: a tunable laser; an adjustable laser cavity for producing one or more modes of laser light emitted from the tunable laser; a first optical parametric oscillator positioned in a light path of the adjustable laser cavity; a second optical parametric oscillator positioned in a path of light emitted from the adjustable laser cavity; and a compensator positioned in a path of light emitted from the second optical parametric oscillator; and a controller operable to simultaneously control parameters of at least the tunable laser, the first optical parametric oscillator, and the adjustable laser cavity to produce a range of wavelengths emitted from the tunable laser system wherein the controller is operable to simultaneously control the parameters of at least the tunable laser, the first optical parametric oscillator, and the adjustable laser cavity, while controlling the parameters of the second optical parametric oscillator and the compensator to produce the range of wavelengths emitted from the tunable laser system. 2. The tunable laser system of claim 1 wherein the parameters of the tunable laser include a frequency of the tunable laser. 3. The tunable laser system of claim 1 wherein the parameters of the first optical parametric oscillator includes a temperature of a crystal of the first optical parametric oscillator. 4. The tunable laser system of claim 1 wherein the parameters of the adjustable laser cavity include a cavity length of the adjustable laser cavity. 5. The tunable laser system of claim 1 wherein the parameters of the adjustable laser cavity include a position of one or more optical components of the adjustable laser cavity. 6. The tunable laser system of claim 1 wherein the parameters of the second optical parametric oscillator include a rotational position of a crystal of the second optical parametric oscillator. 7. The tunable laser system of claim 1 wherein the parameters of the compensator include a rotational position of the compensator. 8. A method of operating a tunable laser system comprising: using a controller to simultaneously control parameters of: a tunable laser; an adjustable laser cavity for producing one or more modes of laser light emitted from the tunable laser; and a first optical parametric oscillator positioned in a light path of the adjustable laser cavity; further using the controller to control the parameters of at least the tunable laser, the first optical parametric oscillator, and the adjustable laser cavity, while controlling the parameters of: a second optical parametric oscillator positioned in a path of light emitted from the adjustable laser cavity; and a compensator positioned in a path of light emitted from the second optical parametric oscillator to produce a range of wavelengths emitted from the tunable laser system. 9. The method of claim 8 further comprising controlling a frequency of the tunable laser. 10. The method of claim 8 further comprising controlling a temperature of a crystal of the first optical parametric oscillator. 11. The method of claim 8 further comprising controlling a cavity length of the adjustable laser cavity. 12. The method of claim 11 comprising controlling a cavity length of the adjustable laser cavity by controlling a position of one or more optical components of the adjustable laser cavity. 13. The method of claim 8 further comprising controlling a rotational position of a crystal of the second optical parametric oscillator. 14. The method of claim 8 further comprising controlling a rotational position of the compensator. 15. A radiometric calibration system comprising: an integrating sphere for illuminating a radiometer under test; a shutter providing an optical signal to the integrating sphere; and tunable laser system providing an optical signal to the shutter, the tunable laser system comprising: a tunable laser; an adjustable laser cavity for producing one or more modes of laser light emitted from the tunable laser; a first optical parametric oscillator positioned in a light path of the adjustable laser cavity; a controller operable to simultaneously control parameters of at least the tunable laser, the first optical parametric oscillator, and the adjustable laser cavity to produce a range of wavelengths emitted from the tunable laser system; a second optical parametric oscillator positioned in a path of light emitted from the adjustable laser cavity; and a compensator positioned in a path of light emitted from the second optical parametric oscillator; wherein the controller is operable to simultaneously control the parameters of at least the tunable laser, the first optical parametric oscillator, and the adjustable laser cavity, while controlling the parameters of the second optical parametric oscillator and the compensator to produce the range of wavelengths emitted from the tunable laser system.