CONFIGURABLE COMBINATION SPECTROMETER AND IMAGER
First Claim
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1. A multimode imaging transform spectrometer having a spectral collection mode and a camera mode and comprising:
- a beamsplitter configured to split incident electromagnetic radiation from a scene into a first optical path and a second optical path;
at least one focal plane array sensor configured to receive electromagnetic radiation from the first and second optical paths;
a first mirror positioned in the first optical path and configured to reflect electromagnetic radiation in the first optical path toward the at least one focal plane array sensor;
a movable second mirror positioned in the second optical path and configured to reflect electromagnetic radiation in the second optical path toward the at least one focal plane array sensor, the second mirror being movable over a scan range to provide an optical path length difference between the first optical path and the second optical path and produce an interferogram at the least one focal plane array sensor when the imaging transform spectrometer is in the spectral collection mode;
a random amplitude driver coupled to the controller and to one of the first mirror and the second mirror; and
a controller configured to selectively interrupt and halt scanning movement of the second mirror over the scan range to configure the imaging transform spectrometer into the camera mode, the controller being further configured to control the random amplitude driver to impart a vibration to the one of the first mirror and the second mirror while the scanning movement of the second mirror over the scan range is halted to substantially prevent formation of the interferogram at the at least one focal plane array sensor;
wherein, in the camera mode, the at least one focal plane array sensor is configured to produce broadband spatial images of the scene from the electromagnetic radiation from the first and second optical paths.
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Abstract
An imaging transform spectrometer, and method of operation thereof, that is dynamically configurable “on demand” between an interferometric spectrometer function and a broadband spatial imaging function to allow a single instrument to capture both broadband spatial imagery and spectral data of a scene. In one example, the imaging transform spectrometer is configured such that the modulation used for interferometric imaging may be dynamically turned ON and OFF to select a desired mode of operation for the instrument.
7 Citations
17 Claims
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1. A multimode imaging transform spectrometer having a spectral collection mode and a camera mode and comprising:
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a beamsplitter configured to split incident electromagnetic radiation from a scene into a first optical path and a second optical path; at least one focal plane array sensor configured to receive electromagnetic radiation from the first and second optical paths; a first mirror positioned in the first optical path and configured to reflect electromagnetic radiation in the first optical path toward the at least one focal plane array sensor; a movable second mirror positioned in the second optical path and configured to reflect electromagnetic radiation in the second optical path toward the at least one focal plane array sensor, the second mirror being movable over a scan range to provide an optical path length difference between the first optical path and the second optical path and produce an interferogram at the least one focal plane array sensor when the imaging transform spectrometer is in the spectral collection mode; a random amplitude driver coupled to the controller and to one of the first mirror and the second mirror; and a controller configured to selectively interrupt and halt scanning movement of the second mirror over the scan range to configure the imaging transform spectrometer into the camera mode, the controller being further configured to control the random amplitude driver to impart a vibration to the one of the first mirror and the second mirror while the scanning movement of the second mirror over the scan range is halted to substantially prevent formation of the interferogram at the at least one focal plane array sensor; wherein, in the camera mode, the at least one focal plane array sensor is configured to produce broadband spatial images of the scene from the electromagnetic radiation from the first and second optical paths. - View Dependent Claims (2, 5, 6, 7, 8)
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3-4. -4. (canceled)
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9. A multimode imaging transform spectrometer comprising:
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a first focal plane array sensor; a second focal plane array sensor; a beamsplitter configured to split incident electromagnetic radiation from a scene into a first optical path and a second optical path; a first mirror positioned in the first optical path and configured to reflect electromagnetic radiation in the first optical path toward each of the first focal plane array sensor and the second focal plane array sensor; a movable second mirror positioned in the second optical path and configured to reflect electromagnetic radiation in the second optical path toward the first and second focal plane array sensors, the second mirror being movable over a scan range to provide an optical path length difference between the first optical path and the second optical path and produce an interferogram at each of the first and second focal plane array sensors; a random amplitude driver coupled to one of the first mirror and the second mirror and configured to impart a vibration to the one of the first mirror and the second mirror; an analyzer coupled to the first and second focal plane array sensors; and a controller coupled to the second mirror and to the random amplitude driver, and configured to selectively halt scanning movement of the second mirror over the scan range and to control the random amplitude driver to impart the vibration to the one of the first mirror and the second mirror while the scanning movement of the second mirror is halted, so as to substantially prevent formation of the interferogram at the first and second focal plane array sensors; wherein, in the camera mode of the multimode imaging transform spectrometer in which the scanning movement of the second mirror is halted, the first and second focal plane array sensors are configured to produce broadband spatial images of the scene from the electromagnetic radiation in the first and second optical paths; and wherein, in a spectral collection mode of the multimode imaging transform spectrometer, analyzer is configured to produce spectral data from the interferograms produced at the first and second focal plane array sensors. - View Dependent Claims (10, 11, 12, 13, 14)
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15. An imaging method comprising:
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receiving, with a spectrometer, electromagnetic radiation from a scene, the spectrometer including an interferometer having a movable mirror positioned in one arm of the interferometer; selectively producing spectral data from the electromagnetic radiation received from the scene by a spectrometer by; selectively using the interferometer to form an interference pattern at a focal plane array sensor by scanning movement of the movable mirror over a scan range; sampling, at the interferometer, the interference pattern to generate a plurality of measured samples having a measured sample spacing associated therewith; and using cosine estimation at the measured sample spacing for determining amplitudes associated with frequencies uniquely associated with features of the spectral data in the plurality of measured samples; and selectively producing broadband spatial images of the scene from the electromagnetic radiation received from the scene by the spectrometer by; selectively controlling the interferometer to prevent formation of the interference pattern at the focal plane array sensor, including halting the scanning movement of the movable mirror and applying random vibration to the movable mirror; and producing the broadband spatial images using the focal plane array sensor. - View Dependent Claims (17)
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16. (canceled)
Specification