Spectroscopic imaging device employing imaging quality spectral filters
First Claim
1. A spectroscopic imaging device employing imaging quality spectral filters suitable for use in Raman emission microscopy comprising:
- a high intensity monochromatic light source;
means for directing said monochromatic light toward a subject to be analyzed;
collimation means for directing light emitted from each of a plurality of spatial locations within said subject in response to said monochromatic light source impinging upon said subject at an interferometer, the interferometer being of the type which has at least one movable mirror which can be positioned to produce a multiplexed spectral output of the light passing through the interferometer at a plurality of select positions of the movable mirror;
means operatively connected to the interferometer for positioning said movable mirror of said interferometer, wherein said interferometer maintains the image fidelity of the subject as said emitted light passes through the interferometer; and
means for collimating and directing said emitted light passing through the interferometer at a focal plane array detector comprising a two-dimensional array of charge coupled devices, wherein said charge coupled devices of said focal plane array detector measures the intensity of emitted light from each of said plurality of spatial locations of the subject at each of said plurality of select positions of the movable mirror.
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Accused Products
Abstract
Techniques for providing spectroscopic imaging integrates an acousto-optic tunable filter (AOTF), or an interferometer, and a focal plane array detector. In operation, wavelength selectivity is provided by the AOTF or the interferometer. A focal plane array detector is used as the imaging detector in both cases. Operation within the ultraviolet, visible, near-infrared (NIR) spectral regions, and into the infrared spectral region, is achieved. The techniques can be used in absorption spectroscopy and emission spectroscopy. Spectroscopic images with a spectral resolution of a few nanometers and a spatial resolution of about a micron, are collected rapidly using the AOTF. Higher spectral resolution images are recorded at lower speeds using the interferometer. The AOTF technique uses entirely solid-state components and requires no moving parts. Alternatively, the interferometer technique employs either a step-scan interferometer or a continuously modulated interferometer.
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Citations
18 Claims
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1. A spectroscopic imaging device employing imaging quality spectral filters suitable for use in Raman emission microscopy comprising:
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a high intensity monochromatic light source; means for directing said monochromatic light toward a subject to be analyzed; collimation means for directing light emitted from each of a plurality of spatial locations within said subject in response to said monochromatic light source impinging upon said subject at an interferometer, the interferometer being of the type which has at least one movable mirror which can be positioned to produce a multiplexed spectral output of the light passing through the interferometer at a plurality of select positions of the movable mirror; means operatively connected to the interferometer for positioning said movable mirror of said interferometer, wherein said interferometer maintains the image fidelity of the subject as said emitted light passes through the interferometer; and means for collimating and directing said emitted light passing through the interferometer at a focal plane array detector comprising a two-dimensional array of charge coupled devices, wherein said charge coupled devices of said focal plane array detector measures the intensity of emitted light from each of said plurality of spatial locations of the subject at each of said plurality of select positions of the movable mirror. - View Dependent Claims (2, 3, 4, 5, 6, 12)
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7. A spectroscopic imaging device employing imaging quality spectral filters suitable for use in Fluorescence emission microscopy comprising:
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a substantially monochromatic light source; means for directing said monochromatic light toward a subject to be analyzed; collimation means for directing fluorescent light emitted from each of a plurality of spatial locations within said subject in response to said monochromatic light source impinging upon said subject at an interferometer, the interferometer being of the type which has at least one movable mirror which can be positioned to produce a multiplexed spectral output of the light passing through the interferometer at a plurality of select positions of the movable mirror; means operatively connected to the interferometer for positioning said movable mirror of said interferometer, wherein said interferometer maintains the image fidelity of the subject as said fluorescent light passes through the interferometer; and means for collimating and directing said fluorescent light passing through the interferometer at a focal plane array detector comprising a two-dimensional array of charge coupled devices, wherein said charge coupled devices of said focal plane array detector measures the intensity of emitted light from each of said plurality of spatial locations of the subject at each of said plurality of select positions of the movable mirror. - View Dependent Claims (8, 9, 10, 11)
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13. A spectroscopic imaging device employing imaging quality spectral filters suitable for use in near-infrared and infrared absorption microscopy comprising:
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a source of broadband light; means for directing said broadband light toward a subject to be analyzed; collimation means for directing light transmitted or reflected from each of a plurality of spatial locations within said subject in response to said broadband light source impinging upon said subject at an interferometer, the interferometer being of the type which has at least one movable mirror which can be positioned to produce a multiplexed spectral output of the light passing through the interferometer at a plurality of select positions of the movable mirror; means operatively connected to the interferometer for positioning said movable mirror of said interferometer, wherein said interferometer maintains the image fidelity of the subject as said transmitted or reflected light passes through the interferometer; and means for collimating and directing said transmitted or reflected light passing through the interferometer at a focal plane array detector comprising a two-dimensional array of charge coupled devices, wherein said charge coupled devices of said focal plane array detector measures the intensity of said transmitted or reflected light from each of said plurality of spatial locations of the subject at each of said plurality of select positions of the movable mirror. - View Dependent Claims (14, 15, 16, 17, 18)
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Specification