Reconfigurable spectroscopy system

What is claimed is: 1. A device comprising: a plurality of tunable lasers generating a plurality of wavelengths; a plurality of wavelength lockers to reduce wavelength noise from the plurality of wavelengths; a plurality of band combiners each configured to combine a different wavelength range than other band combiners of the plurality of band combiners; a plurality of switches, each switch receiving an output of a corresponding band combiner of the plurality of band combiners, each switch outputting a plurality of switched wavelengths; a plurality of broadband combiners receiving outputs of the plurality of switches; and a plurality of emitters to emit a plurality of reference wavelengths, each emitter receiving an output of a corresponding broadband combiner of the plurality of broadband combiners. 2. The device of claim 1 , wherein each wavelength locker of the plurality of wavelength lockers is between a tunable laser of the plurality of tunable lasers and a band combiner of the plurality of band combiners. 3. The device of claim 1 , wherein the plurality of wavelength lockers comprises a plurality of optical channel monitors located after the plurality of band combiners, and feeding back to the plurality of tunable lasers. 4. The device of claim 1 , wherein each band combiner of the plurality of band combiners is configured to operate within a wavelength range of 100 nm. 5. The device of claim 1 , wherein each wavelength locker of the plurality of wavelength lockers comprises feed-forward or feedback noise cancellation, and wavelength locking circuits. 6. The device of claim 3 , wherein each optical channel monitor of the plurality of optical channel monitor: comprises: one input configured to receive a portion of light from a tunable laser; an arrayed waveguide grating; a first photodiode outputting a first current; and a second photodiode outputting a second current; and is configured to monitor a ratio of the first current to the second current, to stabilize a target wavelength. 7. A device comprising: a plurality of tunable lasers generating a plurality of wavelengths; a plurality of wavelength lockers to reduce wavelength noise from the plurality of wavelengths; a plurality of band combiners each configured to combine a different wavelength range than other band combiners of the plurality of band combiners; a broadband combiner receiving outputs of the plurality of band combiners; an optical phased array switch comprising at least one arrayed waveguide grating; and a plurality of emitters to emit a plurality of reference wavelengths, each emitter receiving an output of the optical phased array switch. 8. The device of claim 7 , wherein the plurality of wavelength lockers comprises a plurality of optical channel monitors located after the plurality of band combiners, and feeding back to the plurality of tunable lasers. 9. The device of claim 8 , wherein each optical channel monitor of the plurality of optical channel monitor: comprises: one input configured to receive a portion of light from a tunable laser; an arrayed waveguide grating; a first photodiode outputting a first current; and a second photodiode outputting a second current; and is configured to monitor a ratio of the first current to the second current, to stabilize a target wavelength. 10. The device of claim 7 , wherein each band combiner of the plurality of band combiners is configured to operate within a wavelength range of 100 nm. 11. A method comprising: generating a plurality of wavelengths by a plurality of tunable lasers; reducing wavelength noise from the plurality of wavelengths by a plurality of wavelength lockers; combining the plurality of wavelengths into wavelength ranges by a plurality of band combiners; switching the wavelength ranges by a plurality of switches; multiplexing over a time domain the plurality of wavelength ranges into a plurality of broadband combiners, each broadband combiner of the plurality of broadband combiners outputting to a corresponding emitter of a plurality of emitters; and emitting the multiplexed wavelengths by the plurality of emitters.