초록 ▼

An all-reflecting, non-relayed optical system having an aperture stop and an optical axis and configured to provide images of objects. The system includes a positive power primary mirror configured to receive radiation from the objects, a negative power secondary mirror configured to receive the rad

An all-reflecting, non-relayed optical system having an aperture stop and an optical axis and configured to provide images of objects. The system includes a positive power primary mirror configured to receive radiation from the objects, a negative power secondary mirror configured to receive the radiation reflected from the primary mirror and a positive power tertiary mirror configured to receive the radiation reflected from the secondary mirror. The system further includes a focal plane configured to receive the radiation reflected from the tertiary mirror and to form an image of the objects. The aperture stop of the optical system is located between the tertiary mirror and the image plane. Accordingly, the image plane may be cold shielded to prevent or reduce radiation reflected from the optical elements that interferes with the desired image.

대표청구항 ▼

1. An all-reflecting, non-relayed optical system having an aperture stop and an optical axis and configured to provide images of objects, the system comprising: a primary mirror configured to receive radiation from the objects;a secondary mirror configured to receive the radiation reflected from the

1. An all-reflecting, non-relayed optical system having an aperture stop and an optical axis and configured to provide images of objects, the system comprising: a primary mirror configured to receive radiation from the objects;a secondary mirror configured to receive the radiation reflected from the primary mirror;a tertiary mirror configured to receive the radiation reflected from the secondary mirror; andan image plane configured to receive the radiation reflected from the tertiary mirror and to form an image of the objects, wherein the aperture stop of the optical system is located between the tertiary mirror and the image plane,wherein the optical system is non-relayed. 2. The all-reflecting, non-relayed optical system of claim 1, further comprising a cold cavity having a window coincident with the aperture stop, the cold cavity enclosing space up to and between the aperture stop and the image plane. 3. The all-reflecting, non-relayed optical system of claim 1, wherein the aperture stop is further located slightly above and to the right of the secondary mirror, in reference to the tangential plane of the optical system. 4. The all-reflecting, non-relayed optical system of claim 1, wherein the aperture stop is further located approximately halfway between the tertiary mirror and the image plane. 5. The all-reflecting, non-relayed optical system of claim 1, wherein the primary, secondary and tertiary mirrors are off-axis from the optical axis of the optical system. 6. The all-reflecting, non-relayed optical system of claim 1, wherein the primary mirror is a positive power mirror, the secondary mirror is a negative power mirror, and the tertiary mirror is a positive power mirror. 7. An all-reflecting, non-relayed optical system having an optical axis comprising: an off-axis concave primary mirror configured to receive radiation from objects;an off-axis convex secondary mirror configured to receive the radiation reflected from the primary mirror;an off-axis concave tertiary mirror configured to receive the radiation reflected from the secondary mirror;a focal plane configured to receive the radiation reflected from the tertiary mirror and for forming an image of the objects, wherein an aperture stop of the optical system is located between the tertiary mirror and the focal plane; anda cold cavity having a window coincident with the aperture stop, the cold cavity enclosing space up to and between the aperture stop and the focal plane,wherein the optical system is non-relayed. 8. The all-reflecting, non-relayed optical system of claim 7, wherein the aperture stop is further located slightly above and to the right of the secondary mirror, in reference to the tangential plane of the optical system. 9. The all-reflecting, non-relayed optical system of claim 7, wherein the aperture stop is further located approximately halfway between the tertiary mirror and the focal plane. 10. A method of imaging objects in an all-reflecting, non-relayed optical system having an optical axis, the method comprising: reflecting radiation received from objects in a first direction relative to the optical axis utilizing a primary mirror;reflecting the radiation received from the first mirror in a second direction relative to the optical axis utilizing a secondary mirror;reflecting the radiation received from the secondary mirror in a third direction relative to the optical axis utilizing a tertiary mirror;forming an image of the distant objects utilizing an image plane, wherein an aperture stop of the optical system is located between the tertiary mirror and the focal plane; andproviding cold shielding up to and between the aperture stop and the focal plan,wherein the optical system is non-relayed. 11. The method of claim 10, wherein the aperture stop is further located slightly above and to the right of the secondary mirror, in reference to the tangential plane of the optical system. 12. The method of claim 10, wherein the aperture stop is further located approximately halfway between the tertiary mirror and the focal plane. 13. The method of claim 10, wherein the primary, secondary and tertiary mirrors are configured such that each of the mirrors are off-axis from the optical axis of the optical system. 14. The method of claim 10, wherein the primary mirror is a positive power mirror, the secondary mirror is a negative power mirror, and the tertiary mirror is a positive power mirror.