| 摘要 |
New families of two mirror unobscured telescopes with compact Schiefspiegler, eccentric pupil Cassegrain geometries, incorporating aspheres, tilted and decentered secondaries, and tilted decentered focal surfaces. These variables allow control of focal surface tilt. All embodiments, from f/5 to f/16, are totally reflecting, fully baffled systems, with wide diffraction limited FOVs and unobscured aperture MTFs. Systems optimized with the focal plane normal to the gut ray are well suited for visual and general use. They can incorporate a variable iris for f/number control and allow focusing along the gut ray with minimal field tilt. Systems optimized with a fixed focal plane tilt are well suited for high resolution, wide field collimators and IR scene generators. Any light reflected at focus can be trapped, eliminating Narcissus or “cats eye” effects. Additionally, this reflection can be used to provide a uniform “background” irradiance field. |
| 主权项 |
1. Two-mirror unobscured telescope systems comprising:
(a) a family of designs ranging from f/5 to f/16 whose optical design parameters vary over the range, of which individual f/no optical design optimizations are given for f/5, f/6t f/7, f/8, f/9, f/10, f/10.7, f/12, f/14, and f/16; (b) a two mirror telescope, characterized by a symmetric geometry which includes two mirrors, two baffles, an unobscured entrance pupil and a focal plane; (c) a plane of symmetry, defined by the axis of symmetry of a primary mirror, an axis of symmetry of a secondary mirror and a gut ray of the system; (d) a design geometry, optimized by tilts, decenters, aspheric surface geometries of the primary and secondary mirrors, and separations and angles of these mirrors and focal surface, such that it simultaneously has a controlled focal plane tilt with respect to the gut ray, a nominally wide flat usable field of view, suitable baffling for stray light rejection, and focusing range along the gut ray for non Infinite conjugate imaging for each design; (e) the design geometry, further including a unique primary mirror surface, with a nominally aspheric concave surface figure, and center offset from a vertex axis of the parent primary mirror, configured to converge light toward a focus on a primary vertex axis for each design; (f) the unobscured entrance pupil displaced laterally from said primary mirror vertex axis and located prior to the primary mirror, the spacings being unique to each design; (g) the design geometry that uses a unique secondary mirror surface, with a nominally aspheric convex surface figure, and center offset from the vertex axis of the parent secondary mirror, additionally offset in distances longitudinally from the primary mirror vertex, laterally from the primary mirror vertex axis and tilted with respect to the primary mirror vertex axis, and configured to converge light toward a focus for each design; (h) a geometry of a focal surface for flat extended field images, with the center offset in distances longitudinally from the secondary mirror vertex, and laterally from the secondary mirror vertex axis and a normal to the focal surface is tilted with respect to the secondary mirror vertex axis for each design; (i) a tilt of the focal plane with respect to the direction of the gut ray defined by choice and optimized by the tilts, decenters, aspheric surface geometries of the primary and secondary mirrors, and separations and angles of these mirrors and focal surface for each design: (j) the geometry of the focal surface, nominally at a given position for an infinite conjugate, and optimized so that the path of the center of the focal plane can be follows the gut ray as the non-infinite conjugate distance is varied for each design; (k) a position for each of a pair of baffles to shield the focal plane from stray light entering through the entrance pupil, which allows usage of the design for a camera or visual observation for each design; (l) a first baffle which is nominally situated between the entrance pupil and the secondary mirror, and is a plate perpendicular to and centered on the plane of symmetry, which is situated between the bundle of rays from the entrance pupil and the primary mirror and the bundle of rays from the primary mirror to the secondary mirror, for each design; (m) a second baffle, which is nominally situated between the primary mirror and the focal plane, and is a plate perpendicular to and centered on the plane of symmetry, which is situated between the bundle of rays from the primary, and the secondary mirror and the bundle of rays from the secondary mirror to the focal plane, for each design, and, (n) geometry of the two baffles, optimized by the tilts, decenters, aspheric surface geometries of the primary and secondary mirrors, and separations and angles of these mirrors and focal surface, such that these baffles do not obscure any light from the entrance pupil to the focal plane, but are situated such that working together, no light can go from the entrance pupil to the focal surface, either at the infinite conjugate position or at finite conjugates, for each design. |
