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10/05/06 - USPTO Class 356 |  111 views | #20060221325 | Prev - Next | About this Page  356 rss/xml feed  monitor keywords

Flow cytometer for differentiating small particles in suspension

Title: Flow cytometer for differentiating small particles in suspension




Brief Patent Description - Full Patent Description - Patent Claims

The Patent Description & Claims data below is from USPTO Patent Application 20060221325, Flow cytometer for differentiating small particles in suspension.


1. A flow cytometer comprising: (a) an optical flow cell having a particle-interrogation zone through which particles to be characterized can be made to pass, one-at-a-time, along a substantially linear particle path; (b) a laser for producing a plane-polarized laser beam, said laser being oriented so that the plane of polarization of said laser beam is perpendicular to the particle path; (c) a beam-shaping lens system for focusing said laser beam as an elliptical spot centered on said particle path within said particle-interrogation zone, the minor axis of said elliptical spot being arranged parallel to said particle path; (d) a side-scatter photodetector positioned to detect a portion of said laser beam upon being scattered by particles irradiated by said focused elliptical spot in a direction substantially perpendicular to said particle path and to the direction from which said laser beam irradiates a particle at said particle-interrogation zone; and (e) a polarization-rotating optical element positioned in said laser beam between said laser and said optical flow cell, said optical element serving to rotate the plane of polarization of said laser beam before said laser beam irradiates particles at said particle-interrogation zone.

2. The apparatus as defined by claim 1 wherein said polarization-rotating optical element serves to rotate the plane of polarization of said laser beam by an amount sufficient to render the plane of polarization of the particle-irradiating laser beam substantially parallel to said particle path.

3. The apparatus as defined by claim 2 wherein said polarization-rotating optical element operates to rotate the plane of polarization of said laser beam by 90 degrees.

4. The apparatus as defined by claim 3 wherein said polarization-rotating optical element comprises a half-wave plate.

5. The apparatus as defined by claim 3 wherein said polarization-rotating optical element comprises a pair of quarter-wave plates.

6. A flow cytometer comprising: (a) an optical flow cell having a linear particle path along which particles to be characterized can be made to pass seriatim; (b) a laser diode for producing a plane-polarized laser beam of elliptical cross-section having mutually perpendicular major and minor axes, said laser diode being arranged so that the major axis of said elliptical cross-section extends perpendicular to said particle path; (c) a lens system for focusing said laser beam to an elliptical spot having mutually perpendicular major and minor axes on said particle path, said spot being oriented so that said minor axis of the focused spot is parallel to said particle path; (d) a side-scatter photodetector positioned to detect laser radiation scattered in a direction substantially perpendicular to the direction of particle flow and to the direction at which said laser beam irradiates a particle moving along said particle path; and (e) an optical element positioned in said laser beam and functioning to rotate the plane of polarization of said laser beam by 90 degrees before said laser beam irradiates particles on said particle path.

7. The apparatus as defined by claim 6 wherein said optical element comprises a half-wave plate.

8. The apparatus as defined by claim 6 wherein said optical element comprises a pair of quarter-wave plates arranged in tandem.

9. A flow cytometer comprising: (a) an optical flow cell having a particle-interrogation zone through which particles to be characterized can be made to pass, one-at-a-time, along a substantially linear particle path; (b) a laser that produces a plane-polarized laser beam of expanding elliptical cross-section having mutually perpendicular major and minor axes, said laser beam being plane-polarized in a plane parallel to the major axis of the expanding elliptical cross-section, said being oriented with respect to said optical flow cell so that said plane of polarization is substantially perpendicular to said linear particle path; (c) a collimating lens for collecting and collimating a major portion of said laser beam to provide a collimated laser beam, said collimating lens further operating to truncate a portion of said expanding elliptical cross-section and thereby give rise to spurious light sources appearing at opposite sides of said collimating lens; (d) a beam-shaping lens system for (i) focusing the collimated laser beam as an elliptical spot centered on the linear particle path within the particle-interrogation zone, and (ii) condensing light from said spurious light sources as spurious light spots on opposite sides of, and along the major axis of, the focused elliptical spot, said beam-shaping lens system being effective to orient said focused elliptical spot so that its minor axis extends parallel to said particle path, thereby positioning the spurious light spots on opposite sides of and spaced from said particle path; (e) a side-scatter photodetector positioned to detect laser radiation scattered from a particle irradiated by said focused elliptical spot in a direction substantially perpendicular to the particle path and to the direction at which said laser beam irradiates a particle at said particle-interrogation zone; and (f) a polarization-rotating optical element, positioned in said laser beam and adapted to rotate the plane of polarization of said laser beam by 90 degrees before said laser beam irradiates particles at said particle-interrogation zone.

10. The apparatus as defined by claim 9 wherein said polarization-rotating optical element is positioned in the collimated portion of said laser beam.

11. The apparatus as defined by claim 9 wherein said polarization-rotating optical element comprises a half-wave plate.

12. The apparatus as defined by claim 9 wherein said polarization-rotating optical element comprises a pair of quarter-wave plates arranged in tandem.

Brief Patent Description - Full Patent Description - Patent Claims

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Industry Class:
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