Claims
- 1. An optical system having a selected one of a pair of fields of view, comprising:
- a primary reflector;
- a secondary reflector;
- a refractive optical system;
- a drive for orienting the secondary reflector to a first region in optical alignment with the primary reflector to provide the optical system with one of the pair of fields of view and for reorienting the secondary reflector to a second region out of optical alignment with the primary reflector and orientating the refractive optical system at said first region to provide a refractive optical system with a second one of the pair of fields of view; and
- wherein the secondary reflector and the refractive optical system are mounted to a common support and wherein the drive rotates the support to orient and reorient the secondary reflector and the refractive optical system.
- 2. The optical system recited in claim 1 including a detector and a second refractive optical system disposed between said first region and the detector.
- 3. The optical system recited in claim 1 including a detector and wherein the detector comprises an array of detector elements and including a processor for processing energy from pixels formed by plurality of detector elements having a smaller area when the energy is directed through the secondary reflector than when the energy is directed through the refractive optical system.
- 4. The optical system recited in claim 3 including a second refractive optical system disposed between said first region and the detector.
- 5. An optical system having a selected one of a pair of fields of view, comprising:
- a primary reflector;
- a secondary reflector;
- a refractive optical system;
- a detector;
- a drive for positioning the secondary reflector into optical alignment with the primary reflector and the detector for providing a catadioptric optical system with a first one of a plurality of fields of view and for repositioning the secondary reflector out of optical alignment with the primary reflector and positioning the refractive optical system into optical alignment with the detector for providing a refractive optical system with a second one of the plurality of fields of view; and
- wherein the secondary reflector and the refractive optical system are mounted to a common support and wherein the drive rotates the support to orientate and reorient the secondary reflector and the refractive optical system.
- 6. The optical system recited in claim 5 including a second refractive optical system disposed forward of the detector; and,
- wherein when the drive positions the secondary mirror into optical alignment with the primary mirror to provide the first field of view, the second refractive optical system is disposed between the secondary reflector and the detector, such primary reflector, secondary reflector and second refractive optical system providing a catadioptric optical system for the detector.
- 7. The optical system recited in claim 5 wherein the detector comprises an array of detector elements and including a processor for processing energy from pixels formed by plurality of detector elements having a smaller area when the energy is directed through the secondary reflector than when the energy is directed through the refractive optical system.
- 8. The optical system recited in claim 5 wherein the common support is mounted to rotate about the primary reflector.
Government Interests
This invention was made with Government support under Contract No. DAAH01-94-C-R166 awarded by the Department of the Army. The Government has certain rights in this invention.
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