Optically active biological particle distinguishing apparatus
First Claim
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1. An apparatus for distinguishing microorganisms, pollens, and eukaryotic cell types as single cells in a cell stream, said apparatus comprising:
- a source for a continuous light beam of suitable diameter in the infrared to ultraviolet light range;
means for selecting a linearly polarized component from the beam;
first means for optically modulating the linearly polarized component of the beam into left and right circularly polarized components at a single first frequency;
means for shaping the circularly polarized components and for focusing on and passing the left and right circularly polarized components through a flow chamber through which a stream containing the cells to be distinguished can be flowed as individual cells;
means for collecting the circularly polarized components scattered by a cell to be distinguished at least one angle relative to the direction of the continuous light beam, the scattered components being amplitude modulated at said first frequency in accordance with the circular birefringence of the cell and amplitude modulated in accordance with the linear birefringence of the cell at a second frequency, said second frequency being twice said first frequency;
second means for optically modulating the collected scattered beam components at a single third frequency;
means for again linearly and circularly polarizing the modulated scattered beam components;
means for spatially filtering said again polarized modulated scattered beam components;
photodetector means for receiving said spatially filtered amplitude modulated scattered beam components and for generating an output in accordance therewith; and
means for receiving and analyzing the output and for extracting the amplitude modulated components at at most said first frequency and said second frequency at said at least one angle relative to the direction of the continuous light beam to identify microorganisms and eukaryotic cells as individual cells in the cell stream.
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Abstract
The disclosure is directed to organic particle sorting and identification. High frequency pulses of circularly polarized light, alternating between left and right, intersect a fast moving stream of organic particles. Circular intensity differential scattering and linear intensity differential scattering are monitored to uniquely identify a variety of organic particles.
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Citations
18 Claims
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1. An apparatus for distinguishing microorganisms, pollens, and eukaryotic cell types as single cells in a cell stream, said apparatus comprising:
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a source for a continuous light beam of suitable diameter in the infrared to ultraviolet light range; means for selecting a linearly polarized component from the beam; first means for optically modulating the linearly polarized component of the beam into left and right circularly polarized components at a single first frequency; means for shaping the circularly polarized components and for focusing on and passing the left and right circularly polarized components through a flow chamber through which a stream containing the cells to be distinguished can be flowed as individual cells; means for collecting the circularly polarized components scattered by a cell to be distinguished at least one angle relative to the direction of the continuous light beam, the scattered components being amplitude modulated at said first frequency in accordance with the circular birefringence of the cell and amplitude modulated in accordance with the linear birefringence of the cell at a second frequency, said second frequency being twice said first frequency; second means for optically modulating the collected scattered beam components at a single third frequency; means for again linearly and circularly polarizing the modulated scattered beam components; means for spatially filtering said again polarized modulated scattered beam components; photodetector means for receiving said spatially filtered amplitude modulated scattered beam components and for generating an output in accordance therewith; and means for receiving and analyzing the output and for extracting the amplitude modulated components at at most said first frequency and said second frequency at said at least one angle relative to the direction of the continuous light beam to identify microorganisms and eukaryotic cells as individual cells in the cell stream. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16)
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17. An apparatus for distinguishing microorganisms, pollen and eukaryotic cell types as individual cells comprising:
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means for producing a continuous beam of light of a selected size in the infrared to ultraviolet range; means for optically amplitude modulating at a single first frequency and circularly polarizing the beam and for passing the beam through a cell stream of individual cells, said means for optically amplitude modulating and circularly polarizing comprising a first optical modulator operating at a single first frequency; means for further amplitude modulating and polarizing the cell scattered light at at least one angle relative to the direction of the continuous beam of light, said means for further amplitude modulating and polarizing comprising at least one second optical modulator operating at a single second frequency different from the first frequency; and means for receiving and analyzing the further modulated and polarized cell scattered light, said means for receiving and analyzing comprising means for simultaneously processing amplitude modulated components of cell-scattered light at at least one angle relative to the direction of the continuous beam of light at the single first frequency and at a frequency twice that of the first frequency in order to identify the microorganisms, pollen, and eukaryotic cell types as individual cells in the cell stream.
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18. An apparatus for categorizing individual organic particles in a particle stream comprising:
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means for producing left and right circularly polarized components of a continuous light beam optically amplitude modulated at a single first frequency; means for passing the components through a particle stream containing individual particles; means for further polarizing and optically amplitude modulating at a single third and different frequency the components as scattered by individual particles in the stream at at least one angle relative to the direction of the continuous light beam; and means for receiving and analyzing the further polarized and modulated components solely at the first frequency and at twice the first frequency in order to categorize the individual particles in the particle stream.
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Specification