Claims
- 1. A particle search unit comprised ofA) a mechanical means to release particles from interrogated surfaces onto which they are believed to have settled; B) an air sampling means to 1. draw such released particles into said particle search unit, 2. dilute such particles for subsequent single particle examination, and 3. provide particle-free sheath flow to entrain and guide such particles through C) a light scattering chamber means that includes a fine light beam intersecting the flow of said sheath flow entrained particles and scattering light therefrom as they pass therethrough one-at-a-time following said dilution; D) a set of detector means collecting said scattered light at a selected set of scattering angles and including analyzing means by which depolarizing properties of said scattered light may be quantified; E) conversion means by which said scattered light intensities detected by said detectors are converted into digital representations and stored in F) a memory means wherein said converted light scattering intensities are stored for subsequent processing by G) a computer means capable of calculating a set of optical observables, OOs, from said converted light scattering intensities of said scattering particles and comparing said sets with those previously defined or stored in said memory means; H) computer input/output means by which said previously defined set of OOs may be transferred into said memory means and by which means the results of analyses performed by said computer means on said sets of OOs may be transferred to a central station or controller means; said controller means capable of modifying analytical software used by said computer measuring said input/output means; and I) physical storage means wherein selected particles are accumulated and stored.
- 2. The particle search unit of claim 1 where said fine light beam is from a laser.
- 3. The particle search unit of claim 1 where said computer input/output interface is provided by telecommunications means.
- 4. The particle search unit of claim 1 where said mechanical means to release particles is provided by an ultrasonic probe.
- 5. The particle search unit of claim 1 where said mechanical means to release particles is provided by a jet of air.
- 6. The particle search unit of claim 1 where said mechanical means to release particles is provided by electrical means.
- 7. The particle search unit of claim 2 where said fine laser beam is plane polarized.
- 8. A method to search for and remove previously targeted particles that may have precipitated onto surfaces or into specific regions comprising the steps ofA) releasing said particles by mechanical means from surfaces or specific regions selected for examination to which they are believed to have settled; B) drawing and diluting said released particles by air sampling means through transport means; C) providing particle-free sheath flow to entrain and guide such particles into a light scattering chamber means containing a fine light beam intersecting the flow of said sheath flow entrained particles D) scattering light from each such particle as each passes through said fine light beam one-at-a-time following said dilution; E) collecting said scattered light by a set of detector means located at a selected set of scattering angles; F) using analyzing means to detect from said scattered light depolarizing effects of said particles; G) converting said scattered light intensities detected by said detectors into digital representations; H) storing said digital representations in memory means wherein said converted light scattering intensities are stored; I) processing said converted light scattering intensities by computer means that calculates a set of optical observables, OOs, from said converted scattered light intensities from said scattering particles; J) comparing said sets with a set previously stored in said memory means that corresponds to said class of targeted particles sought; K) storing said particles matching said OO properties of said sought particle class in storage means.
- 9. The method of claim 8 where said mechanical means for releasing targeted particles is provided by an ultrasonic probe.
- 10. The method of claim 8 where said mechanical means for releasing targeted particles is provided by a jet of air.
- 11. The method of claim 8 where said mechanical means for releasing targeted particles is provided by electrical means.
- 12. The method of claim 8 where said fine light beam is produced by a laser means.
- 13. The particle search unit of claim 1 where said conversions of said detected scattered light intensities into digital representations is performed by digital signal processing means.
- 14. The particle search unit of claim 1 where means to provide power for said unit is comprised of on-board battery means.
- 15. The particle search unit of claim 1 where said unit is portable.
- 16. The particle search unit of claim 1 where said input/output interface is accessible by telemetry means.
- 17. The particle search unit of claim 1 where said search unit is programmed to generate an audible alarm upon obtaining an OO match.
- 18. The particle search unit of claim 1 where said search unit is programmed to display the result on an instrument display panel upon obtaining an OO match.
- 19. The particle search unit of claim 1 where said search unit is programmed to transmit the results of an OO match to a central station.
- 20. The particle search unit of claim 2 where said laser beam is plane polarized.
- 21. The particle search unit of claim 2 where said laser is a GaAs laser operating at a wavelength of about 685 nm.
- 22. The method of claim 8 where said conversions of said detected scattered light intensities into digital representations is performed by digital signal processing means.
- 23. The method of claim 8 where said storage into storage means of said particles matching said OO properties of said sought particle class is controlled by sorting electronics means.
- 24. The method of claim 8 where said memory means is accessible by an input/output interface means.
- 25. The method of claim 12 where said laser beam is plane polarized.
- 26. The method of claim 12 where said laser is a GaAs laser operating at a wavelength of about 685 nm.
RELATED PATENTS
This application is a Continuation-in-Part of U.S. patent application Ser. No. 09/577,108, filed May 23, 2000, now U.S. Pat. No. 6,490,530, which is herein incorporated by reference.
US Referenced Citations (8)
Non-Patent Literature Citations (1)
Entry |
Philip J. Wyatt and Christian Jackson, “Discrimination of Phytoplankton via Light-Scattering Properties,” Limnology & Oceanography, vol. 34, pp. 96-112 (1989). |
Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
09/577108 |
May 2000 |
US |
Child |
10/279707 |
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US |