The disclosed system, device and method for spatial homogenization and focusing of electromagnetic radiation over an aperture to reduce the effects of atmospheric scintillation generally includes an optical lens having an at least partially undulating pattern mapped onto a curvilinear surface. Discl
The disclosed system, device and method for spatial homogenization and focusing of electromagnetic radiation over an aperture to reduce the effects of atmospheric scintillation generally includes an optical lens having an at least partially undulating pattern mapped onto a curvilinear surface. Disclosed features and specifications may be variously controlled, adapted or otherwise optionally modified to eliminate or otherwise reduce the effects of atmospheric scintillation as well as other optical aberrations. Exemplary embodiments of the present invention generally provide improved systems and methods for the acquisition, tracking and engagement of military targets with missiles or other guided ordinance.
대표청구항▼
We claim: 1. An optical device for reducing the effects of atmospheric scintillation upon radiation incident on a detector, comprising: a non-imaging lens adapted to distribute the radiation on the detector, wherein the lens comprises; a curvilinear surface adapted to focus the radiation on the det
We claim: 1. An optical device for reducing the effects of atmospheric scintillation upon radiation incident on a detector, comprising: a non-imaging lens adapted to distribute the radiation on the detector, wherein the lens comprises; a curvilinear surface adapted to focus the radiation on the detector; and an undulating surface integrated into the curvilinear surface, wherein the undulating surface non-randomly spatially homogenizes the radiation on the detector; and wherein said spatial homogenization and focusing operate to provide the reduction of atmospheric scintillation effects that may be observed with said lens. 2. The device of claim 1, wherein said curvilinear surface comprises at least one of a spherical section, a semi-spherical section, a hemi-spherical section, an ovoid section, and a conic section. 3. The device of claim 2, wherein the surface of incidence of said radiation upon said lens comprises at least one of a substantially planar surface, a substantially convex surface, and a substantially concave surface. 4. The device of claim 2, wherein the surface of refraction of said radiation from said lens comprises at least one of a substantially planar surface, a substantially convex surface, and a substantially concave surface. 5. The device of claim 1, wherein said undulating surface comprises a substantially regular pattern. 6. The device of claim 5, wherein said regular pattern comprises topological features resulting from the application of a mathematical formula. 7. The device of claim 5, wherein said regular pattern comprises a sinusoidal oscillating surface. 8. The device of claim 5, wherein said regular pattern comprises at least one of a uniformly corrugated surface and a non-uniformly corrugated surface. 9. The device of claim 5, wherein said regular pattern comprises at least one of a relatively high frequency of oscillation, a medium frequency of oscillation, a relatively low frequency of oscillation, a radially dependent variation in amplitude, a radially dependent variation in frequency, and at least one aspheric feature for higher order correction of optical aberrations. 10. The device of claim 1, wherein said undulating pattern comprises a substantially irregular pattern. 11. The device of claim 10, wherein said irregular pattern comprises at least one of a random pattern and a chaotic pattern. 12. The device of claim 1, further comprising at least one of an at least partially transmissive protective cover and at least one optical filter element. 13. A method for reducing the effects of atmospheric scintillation, upon radiation incident on a detector, comprising: placing a non-imaging optical lens in an optical path of the detector, wherein; the lens is adapted to distribute the radiation irradiance on the detector; and the lens comprises a curvilinear surface adapted to focus electromagnetic radiation, and the curvilinear surface comprises a pattern of undulation mapped thereon adapted to non-randomly spatially homogenize electromagnetic radiation on the detector wherein said spatial homogenization and focusing operate to provide the reduction of atmospheric scintillation effects that may be observed with said lens. 14. The method of claim 13, wherein said undulating pattern comprises topological features resulting from the application of a mathematical formula. 15. The method of claim 14, further comprising at least one of: providing a radial variation in amplitude to topological features of the lens; providing a radial variation in frequency to topological features of the lens; and providing at least one aspheric topological feature for higher order correction of optical aberrations. 16. The method of claim 13, further comprising at least one of: providing an at least partially transmissive protective cover; and providing at least one optical filter element. 17. The method of claim 13, wherein said undulating pattern of said curvilinear surface is produced by at least one of etching, molding, abrasive blasting, milling, and Step and Flash Imprint Lithography (SFIL). 18. A system for reducing the effects of atmospheric scintillation upon radiation in target acquisition, tracking and engagement, comprising: a structure defining an aperture and an optical path; and a sensor disposed in the optical path and adapted to detecting radiation, said sensor comprising; a detector in the optical path; and an non-imaging optical lens in the optical path and adapted to distribute radiation on the detector; wherein said lens has a curvilinear surface, wherein the curvilinear surface of the lens is adapted to focus the radiation on the detector; and a pattern of undulation mapped onto the curvilinear surface of the lens and adapted to non-randomly spatially homogenize the radiation on the detector; wherein said spatial homogenization and focusing operate to provide the reduction of atmosphere scintillation effects that may be observed with said lens. 19. The system of claim 18, wherein said radiation comprises substantially coherent electromagnetic radiation. 20. The system of claim 18 wherein said sensor further comprises at least one of an at least partially transmissive protective cover and at least one optical filter element.
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이 특허에 인용된 특허 (3)
Simpson, Michael J.; Carson, Daniel R., Aspheric lenses.
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