An optical system (20) provides a variable dispersion that helps to collect multi-spectral information on an object within the field of view. The system (20) includes at least two sets (24, 26) of optical elements (42x42y,44x,44y) that have minimal deviation of a center wavelength and a non-zero dev
An optical system (20) provides a variable dispersion that helps to collect multi-spectral information on an object within the field of view. The system (20) includes at least two sets (24, 26) of optical elements (42x42y,44x,44y) that have minimal deviation of a center wavelength and a non-zero deviation of at least one other wavelength. By rotating the sets of optical elements (24, 26) relative to one another or together, the degree of wavelength dispersion and the direction of the wavelength dispersion can be varied, respectively. By selectively rotating the sets of optical elements, the system also can be operated in a non-dispersed “white light” mode with no net dispersion at the image plane.
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1. An optical system capable of variably dispersing incident electromagnetic energy, comprising at least two optical elements spaced apart a fixed distance, whereby rotation of one or more of the optical elements relative to one or more of the other optical elements changes the degree of dispersion,
1. An optical system capable of variably dispersing incident electromagnetic energy, comprising at least two optical elements spaced apart a fixed distance, whereby rotation of one or more of the optical elements relative to one or more of the other optical elements changes the degree of dispersion, and rotation of all of the optical elements together in a common direction changes the orientation of the dispersion, a detector at a fixed distance from the optical elements to receive electromagnetic energy from the optical elements and convert it into electronic data, a controller that controls the rotation of the optical elements to selectively vary the dispersion of the electromagnetic energy and the orientation of the dispersion produced by the optical elements on the detector and a processor that analyzes the electronic data to identify spectral signatures of objects in the system's field of view. 2. A system as set forth in claim 1, wherein the optical elements are selected to have approximately zero-degree deviation of a central wavelength and nonzero-degree deviation of at least one other wavelength.3. A system as set forth in claim 1, wherein the optical elements are selected to have nonzero-degree deviation of a central wavelength.4. A system as set forth in claim 1, wherein the optical elements include one or more of a diffractive device, a refractive device or both.5. A system as set forth in claim 1, wherein the optical elements include at least one diffraction grating.6. A system as set forth in claim 1, wherein the optical elements include at least one prism.7. A system as set forth in claim 1, wherein the optical elements are grouped into sets, each set having at least two optical elements that maintain a constant orientation relative to the other optical elements of the set.8. A system as set forth in claim 1, wherein the at least two optical elements include a first set of optical elements and a second set of optical elements.9. A system as set forth in claim 8, wherein the first set of optical elements includes a first prism formed of a first material and having a first apex angle, and a second prism formed of a second material and having a second apex angle; the second set of optical elements includes a third prism formed of a third material and having a third apex angle, and a fourth prism formed of a fourth material and having a fourth apex angle; and each prism is selected so that a desired central wavelength has an approximately zero-degree deviation upon passing through the respective set of optical elements.10. A system as set forth in claim 9, wherein the first prism is the same as the third prism, and the second prism is the same as the fourth prism.11. A system as set forth in claim 9, wherein each set of optical elements includes at least two prisms secured together and aligned so that the central wavelength of electromagnetic energy incident on the set of optical elements generally passes through both prisms.12. A system as set forth in claim 1, further comprising an imaging assembly at a fixed distance from the optical elements that receives dispersed electromagnetic energy from the optical elements and focuses the electromagnetic energy toward an image plane.13. A system as set forth in claim 12, wherein the imaging assembly includes a lens doublet.14. A system as set forth in claim 12, wherein the detector is at an image plane that is a fixed distance from the optical elements to receive at least a portion of the electromagnetic energy from the imaging assembly and to convert the incident electromagnetic energy into electronic data.15. A system as set forth in claim 1, wherein the detector includes at least one photodetector pixel.16. A system as set forth in claim 14, wherein the detector includes an array of photodetector pixels.17. A system as set forth in claim 1, further comprising a memory for storing the electronic data.18. A system as set forth in claim 17, wherein the memory includes a l ibrary of electronic data representative of spectral signatures of known objects to facilitate identification of objects in a field of view.19. A system as set forth in claim 1, further comprising a motor connected to each optical element to rotate each optical element independently.20. A system as set forth in claim 1, further comprising a motor connected to each of at least two sets of optical elements, each set having at least two optical elements, each set of optical elements being rotatable independently of the other set.21. A system as set forth in claim 19, wherein the motor connected to each set of optical elements includes a first motor connected to a first set of optical elements and a second motor connected to a second set of optical elements.22. A system as set forth in claim 19, wherein the controller selectively and independently controls each motor.23. A missile having an optical system as set forth in claim 1.24. A system as set forth in claim 1, wherein the at least two optical elements includes four optical elements, each optical element being independently rotatable.25. A system as set forth in claim 24, wherein selectively rotating the optical elements changes the look-angle of the incident electromagnetic energy entering the system.
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