IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0349340
(2006-02-08)
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등록번호 |
US-7576844
(2009-08-31)
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발명자
/ 주소 |
- Hairston, Peter P.
- Freidhoff, Carl B.
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출원인 / 주소 |
- Northrop Grumman Corporation
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대리인 / 주소 |
Rothwell, Figg, Ernst & Manbeck, P.C.
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인용정보 |
피인용 횟수 :
4 인용 특허 :
29 |
초록
The invention provides systems and methods for detecting aerosols. The systems and methods can be used to detect harmful aerosols, such as, bio-aerosols.
대표청구항
▼
What is claimed is: 1. In a detector system comprising a first emitter, a second emitter, and a detector, a detection method, comprising: using the first emitter to emit into a region of space first radiation having a first wavelength; while using the first emitter to emit into the region the first
What is claimed is: 1. In a detector system comprising a first emitter, a second emitter, and a detector, a detection method, comprising: using the first emitter to emit into a region of space first radiation having a first wavelength; while using the first emitter to emit into the region the first radiation, using the second emitter to emit into the region second radiation having a second wavelength, so that, when a particle transits through the region of space, the particle is simultaneously exposed to the first and second radiation and, in response to being exposed to the radiation, produces elastic and/or inelastic radiation; modulating the intensity of the first radiation at a first frequency and modulating the intensity of the second radiation at a second frequency, wherein first and second frequencies are different frequencies; transmitting, by reflective or refractive optics, the elastic and inelastic radiation to the detector through a filter or a combination of filters; receiving an output signal from the detector; and determining the intensity of said produced elastic radiation that can attributed to the first emitter, the intensity of said produced elastic radiation that can attributed to the second emitter, and the intensity of said inelastic radiation, by analyzing the frequency components of the output signal. 2. The detection method of claim 1, wherein the first emitter and the second emitter are continuous mode emitters, and wherein the output signal generated during the transit time of the particle through the region of space contains at least 10 cycles of each modulating frequency. 3. The detection method of claim 2, further comprising the step of, in response to detecting the particle is within said region of space or about to enter said region of space, causing each of the two emitters to emit said first and second radiation, respectively, while the particle transits through the region. 4. The detection method of claim 3, wherein the step of detecting that the particle is within said region of space or about to enter said region of space comprises using a light source to detect the particle. 5. The detection method of claim 3, wherein the first emitter is configured to emit radiation in a first direction, the second emitter is configured to emit radiation in a second direction that intersects the first direction, and an emitter reflector is disposed at the intersection of the first direction and the second direction, wherein the emitter reflector is configured to pass the first radiation in the first direction and reflect the second radiation in the first direction. 6. The detection method of claim 5, wherein the determining step comprises using Fourier analysis. 7. The detection method of claim 5, wherein the determining step comprises using frequency down-mixing. 8. A detector system comprising: a first intensity-modulated emitter configured to emit intensity-modulated first radiation modulated at a first frequency into a region of space; a second intensity-modulated emitter configured to emit intensity-modulated second radiation modulated at a second frequency into the region of space, such that, when a particle transits through the region of space, the particle is simultaneously exposed to the radiation from the first and second emitters and, in response to being exposed to the radiation, produces elastic and/or inelastic radiation, wherein the second frequency is different from the first frequency; a detector; reflective or refractive optics configured to transmit the elastic and/or inelastic radiation to the detector; a processor configured to determine by spectral analysis the intensity of said produced elastic radiation that can attributed to the first radiation, the intensity of said produced elastic radiation that can attributed to the second radiation, and the intensity of said inelastic radiation. 9. The detector system of claim 8, wherein the first emitter and the second emitter are continuous mode emitters. 10. The detector system of claim 9, further comprising a particle detector system for producing a signal when the particle is within said region of space or about to enter said region of space, wherein said signal is configured to cause each of the two emitters to emit said first and second radiation, respectively, while the particle transits through the region. 11. The detector system of claim 10, wherein the particle detector system comprises a light source and a light detector. 12. The detector system of claim 8, wherein the first emitter is configured to emit radiation in a first direction, the second emitter is configured to emit radiation in a second direction that intersects the first direction, an emitter reflector is disposed at the intersection of the first direction and the second direction, wherein the emitter reflector is configured to pass the first radiation in the first direction and reflect the second radiation in the first direction. 13. The detector system of claim 8, wherein the processor is configured to use Fourier analysis to determine the intensity of said produced elastic and/or inelastic radiation that can attributed to the first radiation and the intensity of said produced elastic and/or inelastic radiation that can attributed to the second radiation. 14. The detector system of claim 8, wherein the processor is configured to use frequency down-mixing to determine the intensity of said produced elastic and/or inelastic radiation that can attributed to the first radiation and the intensity of said produced elastic and/or inelastic radiation that can attributed to the second radiation. 15. The detector system of claim 8, further comprising means for modulating the first emitter at a first frequency and means for modulating the second emitter at a second frequency, wherein the output signal generated during the transit time of the particle through the region of space contains at least 10 cycles of each modulating frequency. 16. The detection method of claim 1, wherein the filter or the combination of filters selectively reduce the intensity of some wavelengths to allow all selected wavelength signals to be detected within a useful linear response region of the detector. 17. The detection method of claim 1, wherein the frequency of said produced elastic radiation that can attributed to the first emitter is distinct from said produced elastic radiation that can attributed to the second emitter. 18. The detector system of claim 8, wherein the reflective or refractive optics transmit the elastic and/or inelastic radiation to the detector through a filter or a combination of filters that selectively reduce the intensity of some wavelengths to allow all selected wavelength signals to be detected within a useful linear response region of the detector. 19. The detection method of claim 8, wherein the frequency of said produced elastic radiation that can attributed to the first emitter is distinct from said produced elastic radiation that can attributed to the second emitter.
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