Spectral imaging of a sample using a plurality of discrete mid-infrared wavelengths

What is claimed is: 1. A method for spectrally analyzing an unknown sample for the existence of a characteristic, the method comprising the steps of: analyzing a first known sample having the characteristic and a second known sample not having the characteristic to identify less than fifty diagnostic spectral features of the characteristic, each diagnostic spectral feature being present at a different diagnostic wavelength in a mid-infrared spectral region; providing a spatially homogeneous region of the unknown sample that is substantially structurally homogenous so that the diagnostic spectral features have shifted less than 15 cm −1 than expected when directed at the spatially homogeneous region at each of the different diagnostic wavelengths; directing a plurality of interrogation beams at the unknown sample with a laser source, each of the interrogation beams being nominally monochromatic and having a different interrogation wavelength, and each interrogation wavelength corresponding to a different one of the diagnostic wavelengths; acquiring a plurality of separate output images of the unknown sample with an image sensor that senses light in the mid-infrared spectral region, wherein each of the output images is acquired while the unknown sample is illuminated by a different one of the interrogation beams; and analyzing less than fifty output images with a control system that includes a processor to determine whether the characteristic is present in the unknown sample. 2. The method of claim 1 wherein the step of analyzing a first known sample having the characteristic and a second known sample not having the characteristic includes identifying the less than fifty diagnostic spectral features of the characteristic based on a spectral analysis of the known samples. 3. The method of claim 1 wherein the step of analyzing a first known sample having the characteristic and a second known sample not having the characteristic includes identifying the less than fifty diagnostic spectral features of the characteristic based on an absorbance value recorded at a plurality of wavelengths during a spectral analysis of the known samples. 4. The method of claim 1 wherein the step of analyzing a first known sample having the characteristic and a second known sample not having the characteristic includes identifying less than thirty diagnostic spectral features of the characteristic. 5. The method of claim 1 wherein the step of analyzing a first known sample having the characteristic and a second known sample not having the characteristic includes identifying less than twenty diagnostic spectral features of the characteristic. 6. The method of claim 1 wherein the step of analyzing less than fifty output images includes analyzing less than thirty output images with the control system to determine whether the characteristic is present in the unknown sample. 7. The method of claim 1 wherein the step of analyzing less than fifty output images includes analyzing less than twenty output images with the control system to determine whether the characteristic is present in the unknown sample. 8. The method of claim 1 wherein the step of acquiring a plurality of separate output images includes capturing a plurality of separate preliminary images for each interrogation beam, and using the separate preliminary images to determine the separate output image for each interrogation beam. 9. The method of claim 1 wherein the step of acquiring a plurality of separate output images includes modulating the wavelength of each interrogation beam while capturing the corresponding output image. 10. A method for spectrally analyzing an unknown sample for the existence of a characteristic, the method comprising the steps of: analyzing a known sample having the characteristic to identify a plurality of diagnostic spectral features of the characteristic, each diagnostic spectral feature being present at a different diagnostic wavelength that is in a mid-infrared spectral region; preparing the unknown sample to have a spatially homogeneous region, the spatially homogeneous region that is substantially structurally homogenous so that the diagnostic spectral features have shifted less than 15 cm −1 than expected when directed at the spatially homogeneous region at each of the different diagnostic wavelengths; directing a plurality of interrogation beams at the spatially homogeneous region with a laser source, each of the interrogation beams being nominally monochromatic and having a different interrogation wavelength, and each interrogation wavelength corresponding to a different one of the diagnostic wavelengths; acquiring a plurality of separate output images of the unknown sample with an image sensor that senses light in the mid-infrared spectral region, wherein each of the output images is acquired while the unknown sample is illuminated by a different one of the interrogation beams; and analyzing less than fifty output images with a control system that includes a processor to determine whether the characteristic is present in the unknown sample. 11. The method of claim 10 wherein the step of analyzing less than fifty output images includes analyzing less than thirty output images with the control system to determine whether the characteristic is present in the unknown sample. 12. The method of claim 10 wherein the step of analyzing less than fifty output images includes analyzing less than twenty output images with the control system to determine whether the characteristic is present in the unknown sample. 13. The method of claim 10 wherein the step of analyzing a known sample includes identifying less than fifty diagnostic spectral features. 14. The method of claim 10 wherein the step of analyzing a known sample includes identifying less than thirty diagnostic spectral features. 15. The method of claim 10 wherein the step of acquiring a plurality of separate output images includes capturing a plurality of separate preliminary images for each interrogation beam, and using the separate preliminary images to determine the separate output image for each interrogation beam. 16. The method of claim 10 wherein the step of acquiring a plurality of separate output images includes modulating the wavelength of each interrogation beam while capturing the corresponding output image. 17. A method for spectrally analyzing an unknown sample for the existence of a characteristic, the method comprising the steps of: spectrally analyzing a known sample having the characteristic with beams in a mid-infrared spectral range to identify a plurality of diagnostic spectral features of the characteristic based on absorbance values, each diagnostic spectral feature being present at a different diagnostic wavelength that is in a mid-infrared spectral region; preparing the unknown sample to have a spatially homogeneous region that is substantially structurally homogenous so that the diagnostic spectral features have shifted less than 15 cm −1 than expected when directed at the spatially homogeneous region at each of the different diagnostic wavelengths, the spatially homogeneous region not including density fluctuations and refractive index fluctuations; directing a plurality of interrogation beams at the spatially homogeneous region with a laser source, each of the interrogation beams having a different interrogation wavelength, and each interrogation wavelength corresponding to a different one of the diagnostic wavelengths; acquiring a plurality of separate output images of the unknown sample with an image sensor that