System and method for rapid thermal data acquisition

What is claimed is: 1. An assembly for rapid thermal imaging data acquisition of a sample, the assembly comprising: a laser source that emits a laser beam that is directed at the sample, the laser beam including a plurality of pulses, with at least some of the pulses having a different center wavelength in the mid-infrared range; a light sensing device that senses mid-infrared light from the sample, the light sensing device including a pixel array; and a control system that includes a processor, the control system controlling the light sensing device to capture a plurality of sequential readouts from the pixel array with a steady periodic readout acquisition rate that varies less than 0.4 percent. 2. The assembly of claim 1 wherein the plurality of pulses include a plurality of alternative wavelengths of interest, and wherein the control system generates a different wavelength time stamp whenever the laser source emits a different wavelength of interest. 3. The assembly of claim 2 wherein the control system generates a readout time stamp for each readout of the pixel array. 4. The assembly of claim 3 wherein the control system constructs a spectral cube based on the readouts, the readout timestamps, and the wavelength trigger timestamps. 5. The assembly of claim 1 wherein the plurality of sequential readouts includes at least one hundred sequential readouts from the pixel array with a steady periodic readout acquisition rate. 6. The assembly of claim 1 wherein the steady periodic readout acquisition rate varies less than 0.2 percent. 7. The assembly of claim 1 wherein the steady periodic readout acquisition rate is within 0.4 percent of thirty Hertz. 8. The assembly of claim 1 wherein the control system constructs a spectral cube based on the readouts. 9. The assembly of claim 1 wherein the laser source includes (i) a gain medium adapted to generate a beam that exits the gain medium; (ii) a feedback device positioned in the path of the beam, the feedback device redirecting at least a portion of the beam back to the gain medium; (iii) a device mover that continuously adjusts an angle of incidence of the beam on the feedback device; and (iv) a position detector that generates a position signal that relates to the angle of incidence of the beam on the feedback device. 10. The assembly of claim 1 wherein the pixel array is a two dimensional array of pixels that is sensitive to mid-infrared light. 11. A method for rapidly acquiring data regarding a sample, the method comprising: directing a laser beam at the sample with a laser source, the laser beam including a plurality of pulses, with at least some of the pulses having a different center wavelength in the mid-infrared range; sensing mid-infrared light from the sample with a light sensing device that includes a pixel array; and controlling the light sensing device to capture a plurality of sequential readouts from the pixel array with a steady period readout acquisition rate that varies less than 0.4 percent with a control system that includes a processor. 12. The method of claim 11 wherein the plurality of pulses include a plurality of alternative wavelengths of interest, and further comprising the step of generates a different wavelength time stamp whenever the laser source emits a different wavelength of interest with the control system. 13. The method of claim 12 further comprising generating a readout time stamp for each readout of the pixel array with the control system. 14. The method of claim 13 further comprising the step of constructing a spectral cube based on the readouts, the readout timestamps, and the wavelength trigger timestamps. 15. The method of claim 11 wherein the step of controlling includes the steady periodic readout acquisition rate varies less than 0.2 percent. 16. The method of claim 11 further comprising the step of constructing a spectral cube based on the readouts with the control system. 17. A mid-infrared microscope for generating a spectral cube of a sample, the mid-infrared microscope comprising: a laser source that emits a laser beam that is directed at the sample, the laser beam including a plurality of pulses, with at least some of the pulses having a different wavelength of interest; a light sensing device that senses mid-infrared light from the sample, the light sensing device including a two dimensional pixel array; and a control system that includes a processor, the control system controlling the light sensing device to capture a plurality of sequential readouts from the pixel array with a steady periodic readout acquisition rate that varies less than 0.4 percent; the control system generating a different wavelength time stamp whenever the laser source emits a different wavelength of interest, and generating a readout time stamp for each readout of the pixel array; wherein the control system constructs a plurality of thermal images from that readouts and a spectral cube using the thermal images. 18. The mid-infrared microscope of claim 17 wherein the plurality of sequential readouts includes at least one hundred sequential readouts from the pixel array with a periodic state readout acquisition rate. 19. The assembly of claim 17 wherein the steady periodic readout acquisition rate varies less than 0.2 percent. 20. The assembly of claim 17 wherein the laser source includes (i) a gain medium adapted to generate a beam that exits the gain medium; (ii) a feedback device positioned in the path of the beam, the feedback device redirecting at least a portion of the beam back to the gain medium; (iii) a device mover that continuously adjusts an angle of incidence of the beam on the feedback device; and (iv) a position detector that generates a position signal that relates to the angle of incidence of the beam on the feedback device.