Compact Raman or fluorescence excitation system
First Claim
Patent Images
1. A system comprising:
- an illumination source for providing a plurality of illuminating photons in a first direction of propagation;
a microprism optically coupled to said illumination source to directly receive therefrom said plurality of illuminating photons in said first direction and to direct said received illuminating photons in a second direction of propagation;
a focusing lens physically proximate to said microprism and optically coupled thereto, wherein said focusing lens is configured to directly receive said plurality of illuminating photons from said microprism in said second direction and to focus said illuminating photons onto a focusing location;
wherein said microprism is a right angle (90°
) microprism; and
wherein said focusing lens is configured to have a lens surface that is physically closest to said right-angle microprism, and wherein said right-angle microprism is placed in close proximity of an edge of said lens surface and within a numerical aperture of said focusing lens.
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Abstract
A compact Raman and fluorescence spectroscopy system that uses a microprism or micromirror based optical structure to accomplish the introduction of excitation radiation with compactness and simplified system configuration for portable or mobile spectroscopy applications. A microprism may be glued to a surface location of a focusing lens in the system to directly receive the illumination signal without intervening optical components. Alternatively, the microprism may be simply placed in close physical proximity of the focusing lens without being glued thereto. On the other hand, a micromirror may be used instead of the microprism. The illuminating photons received by the microprism or micromirror may be directly transferred to the sample under investigation via the focusing lens. The compact system may be made portable and may further include an on-board spectrometer with or without a display unit. For chemical detecting applications, a detector (e.g., a CCD array) may also be provided along with the spectrometer.
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Citations
15 Claims
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1. A system comprising:
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an illumination source for providing a plurality of illuminating photons in a first direction of propagation; a microprism optically coupled to said illumination source to directly receive therefrom said plurality of illuminating photons in said first direction and to direct said received illuminating photons in a second direction of propagation; a focusing lens physically proximate to said microprism and optically coupled thereto, wherein said focusing lens is configured to directly receive said plurality of illuminating photons from said microprism in said second direction and to focus said illuminating photons onto a focusing location; wherein said microprism is a right angle (90°
) microprism; andwherein said focusing lens is configured to have a lens surface that is physically closest to said right-angle microprism, and wherein said right-angle microprism is placed in close proximity of an edge of said lens surface and within a numerical aperture of said focusing lens. - View Dependent Claims (2, 3)
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4. A system comprising:
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an illumination source for providing a plurality of illuminating photons in a first direction of propagation; a microprism optically coupled to said illumination source to directly receive therefrom said plurality of illuminating photons in said first direction and to direct said received illuminating photons in a second direction of propagation; a focusing lens physically proximate to said microprism and optically coupled thereto, wherein said focusing lens is configured to directly receive said plurality of illuminating photons from said microprism in said second direction and to focus said illuminating photons onto a focusing location; and wherein said microprism is an equilateral microprism. - View Dependent Claims (5, 6, 7, 8)
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9. A system comprising:
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an illumination source for providing a plurality of illuminating photons in a first direction of propagation; a microprism optically coupled to said illumination source to directly receive therefrom said plurality of illuminating photons in said first direction and to direct said received illuminating photons in a second direction of propagation; a focusing lens physically proximate to said microprism and optically coupled thereto, wherein said focusing lens is configured to directly receive said plurality of illuminating photons from said microprism in said second direction and to focus said illuminating photons onto a focusing location; a collection optics to collect photons scattered, reflected, or emitted from a sample when said sample is placed at said focusing location and illuminated by said plurality of illuminating photons from said focusing lens; a spectral analysis system coupled to said collection optics to receive a portion of said collected photons therefrom and to responsively measure a spectrum of said sample using said portion of said collected photons; and a detector optically coupled to said spectral analysis system to receive an output signal therefrom and to responsively provide optical data to generate a wavelength-specific spectral image of said sample. - View Dependent Claims (10, 11, 12)
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13. A system comprising:
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an illumination source for providing a plurality of illuminating photons in a first direction of propagation; a microprism optically coupled to said illumination source to directly receive therefom said plurality of illuminating photons in said first direction and to direct said received illuminating photons in a second direction of propagation; a focusing lens physically proximate to said microprism and optically coupled thereto, wherein said focusing lens is configured to directly receive said plurality of illuminating photons from said microprism in said second direction and to focus said illuminating photons onto a focusing location; an optical filter for receiving photons emitted, scattered, or reflected from said sample and for generating a first set of filtered photons therefrom, wherein said first set of filtered photons includes those of the photons received from the sample that have wavelengths other than a wavelength of said illuminating photons; a liquid crystal-based tunable filter to receive said first set of filtered photons from said optical filter and to generate a second set of filtered photons therefrom, wherein said second set of filtered photons include only those photons from said first set of filtered photons that have a wavelength to which said tunable filter is tuned; a collection lens coupled to said tunable filter for sending said second set of filtered photons received from the tunable filter to a detector; and said detector coupled to said collection lens to receive said second set of filtered photons therefrom and to responsively provide optical data to generate a wavelength-specific spectral image of said sample at the wavelength to which said tunable filter is tuned.
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14. A system comprising:
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an excitation source for providing a plurality of excitation photons in a first direction of propagation; a micromirror optically coupled to said excitation source to directly receive therefrom said plurality of excitation photons in said first direction and to direct said received excitation photons in a second direction of propagation; a focusing lens physically proximate to said micromirror and optically coupled thereto, wherein said focusing lens is configured to directly receive said plurality of excitation photons from said micromirror in said second direction and to focus said excitation photons onto a focusing location; a collection optics to collect photons reflected, scattered, or emitted from a sample when said sample is placed at said focusing location and illuminated by said plurality of excitation photons from said focusing lens; a spectral analysis system coupled to said collection optics to receive a portion of said collected photons therefrom and to responsively measure a spectrum of said sample using said portion of said collected photons; a detector optically coupled to said spectral analysis system to receive an output signal therefrom and to responsively provide optical data to generate a wavelength-specific spectral image of said sample; and a display unit coupled to said detector to display said wavelength-specific spectral image of said sample.
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15. A method comprising:
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configuring an illumination source to provide a plurality of illuminating photons in a first direction of propagation; changing direction of propagation of said plurality of illuminating photons from said first direction to a second direction of propagation using only a microprism or a micromirror; receiving said illuminating photons directly from said microprism or said micromirror in said second direction of propagation and focusing said illuminating photons onto a focusing location; collecting photons reflected, scattered, or emitted from a sample when said sample is placed at said focusing location and illuminated by said plurality of illuminating photons focused onto said focusing location; measuring a spectrum of said sample using a portion of said collected photons; generating optical data for a wavelength-specific spectral image of said sample using said portion of said collected photons; and providing a display of said wavelength-specific spectral image of said sample.
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Specification
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Current AssigneeChemimage Corporation
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Original AssigneeChemimage Corporation
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InventorsZhang, Jingyun
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Primary Examiner(s)EVANS, FANNIE L
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Application NumberUS11/894,402Publication NumberTime in Patent Office721 DaysField of Search356/301US Class Current356/301CPC Class CodesG01J 3/02 DetailsG01J 3/021 using plane or convex mirro...G01J 3/0256 Compact constructionG01J 3/0272 HandheldG01J 3/44 Raman spectrometry; Scatter...G01N 2201/0221 Portable; cableless; compac...
