Absorbance spectrum scanning flow cytometry

We claim: 1. A flow-type particle analyzer, the flow-type particle analyzer comprising: a) an excitation light source that emits a collimated broad-spectrum excitation light beam, b) a cuvette channel, c) a dispersion element positioned between the excitation light source and the cuvette channel that disperses the spectrum of the excitation light beam to produce a continuous spectrum of continuously varying wavelengths of the excitation light beam on said cuvette channel such that a fluoresecent particle passing through a detection region of said cuvette channel in a fluid stream will traverse the continuous spectrum of continuously varying wavelengths of the excitation light beam; and d) detection optics that measure light emitted from fluorescent particles passing through the continuous spectrum of continuously varying wavelengths in the detection region of said cuvette channel. 2. The flow-type particle analyzer of claim 1 , further comprising an optical cuvette having said cuvette channel extending through said optical cuvette. 3. The flow-type particle analyzer of claim 1 , wherein said excitation light source contains a white-light laser. 4. The flow-type particle analyzer of claim 3 , wherein said excitation light source further contains filter elements that restrict the range of wavelengths emitted by the white-light laser. 5. The flow-type particle analyzer of claim 1 , wherein said detection optics comprises a photodetector configured to measure a range of wavelengths that are longer than the wavelengths in the excitation light spectrum that is directed onto the detection region. 6. The flow-type particle analyzer of claim 1 , further comprising a tuneable filter positioned in the excitation light beam between the excitation light source and the dispersion element, configured to allow selection of a narrow band of wavelengths that is passed by the filter, wherein said selection is under the control of a controller. 7. The flow-type particle analyzer of claim 1 , wherein the detection optics are configured to obtain an emission spectrum produced by fluorescent particles in the detection region. 8. The flow-type particle analyzer of claim 7 , wherein the emission spectrum is at least a significant portion of the total emission spectrum produced by particles in the detection region. 9. The flow-type particle analyzer of claim 7 , where the detection optics comprise a long-pass filter. 10. The flow-type particle analyzer of claim 7 , where the detection optics comprise a single detector. 11. The flow-type particle analyzer of claim 10 , where the single detector is a broad-band detector. 12. The flow-type particle analyzer of claim 1 , wherein said detection optics includes a filter that excludes light of wavelengths that overlap the range of wavelengths provided in the excitation light spectrum that is directed onto the detection region. 13. The flow-type particle analyzer of claim 1 , wherein said detection optics comprises a plurality of photodetectors, each photodetector containing a filter that excludes light of wavelengths that overlap the range of wavelengths provided in the excitation light spectrum that is directed onto the detection region. 14. The flow-type particle analyzer of claim 1 , wherein said detection optics comprises a plurality of photodetectors, each configured to measure a range of wavelengths that are longer than at least a portion of the wavelengths in the excitation light spectrum that is directed onto the detection region. 15. The flow-type particle analyzer of claim 1 , wherein said detection optics comprises a plurality of photodetectors, each configured to measure a range of wavelengths defined by a bandpass filter, wherein the ranges of wavelengths measured by said plurality of photodetectors do not overlap.