SU1016756A1 - Catadioptric lens - Google Patents

Abstract

EERCIAL-LYSICAL OBJECTIVE, s: holding one two spherical mirrors, one: nz which is concave / and the second convex, and a compensator, consisting of two components, installed after the second mirror, the first of which consists of a negative meniscus facing concavity to an object that is positive li HHCKa, concave towards the image, and the second is from a negative meniscus and a positive lens, all the lenses are made of the same glass brand, which is improved with the cashew aberratz in the wide spectral region, the first is the laser component you are a1TielnyA4, the second is negative, and the optical equivalent is 1cc sensor “a O) C is negative, and the Munnsk of the second component is reversed to the image, and the opposite lens is two-convex. a: P1 s:

Description

The invention relates to optical instrument making, namely, to mirror-lens lenses, and can be used in systems that are sensitive over a wide spectral range and create an image on several receivers. .; ..; A known mirror-lens objective lens containing two mirrors and a lens compensator are installed in a convergent beam. The lens is corrected for spherical aberration, coma, astigmatism, and image curvature 11. However, one of the surfaces of the mirrors is aspherical, which complicates the fabrication of this lens. Known mirror-lens. a lens, a retracting mirror, and a two-component lens xmxtensorGZ This lens has a high image quality, but its back section is very small, which does not allow the prismuccum to be installed after him to take several images. , ::.: ..., - / .... Known mirror-lens lens containing Two spherical mirrors, one of which is concave ,; and the second is a convex one, and a compensator, consisting of two afocal components, installed after the second mirror, the first of which consists of a negative meniscus facing away from the object and a positive meniscus. The second one is from a negative meniscus and a positive lens Sz. .. A well-known lens, when operating in a wide spectral region, has a perceptible chronimatism of magnification, which increases even more with the introduction of a prism-cube. A robust recommendation for eliminating chromatism is increased by selecting t. LHE and air gaps leading to negative thicknesses. Thus, the elimination of chromatism due to the introduction of lens lenses may be possible if the afocal nature of the second component is disturbed, which in turn leads to the appearance of chromatism, which can be eliminated by the violation of the afocality of the first component. The purpose of the invention is to correct chromatic aberrations in a wide spectral region. The goal is achieved by the fact that in a mirror-lens lens containing two spherical mirrors, one of which is concave and the second convex, and a compensator consisting of two components installed after the second mirror, the first of which consists of a negative meniscus facing concavity. To the object, and the positive meniscus, about (5px with the concavity of the image, the second of the negative meniscus and the positive lens, all the BE lenses: are made of the same glass, the first one is positive, SECOND - negative, and the equivalent optical power of the compensator is negative, with the meniscus of the second component facing the image and the positive lens made two-convex. The figure shows the principal optical lens.The lens consists of a concave 1 and a convex 2 spherical mirrors and a two-component equalizer 3 and 4 , the first of which consists of a negative AND positive meniscus, and the second - of a negative meniscus and a DOUBLEPENDER, a lens and a prism of a cube 5.,:; . , . - -. . Prior to comparison with the MTO-1000 lens, which is taken as the baseline, the following: The 1st lens has a higher relative aperture, improved image quality in a wide spectral range, And can work with several receivers. In addition, the base lens is heavy compared to the proposed one.

Claims (1)

A MIRROR-LENS LENS, containing two spherical mirrors, one of which is concave and the second convex, and a compensator, consisting of two components installed after the second mirror, the first of which consists of a negative meniscus facing the concave object, and a positive facing the concavity of the image, and the second of the negative meniscus and the positive lens, and all lenses are made of the same brand of glass, with the exception of the fact that, in order to improve the correction of chromatic aberrations in wide of the spectral region, the first component is positive, the second negative, and the equivalent optical power of the compensator is negative, with the meniscus of the second component facing concavity to the image, and the opposite lens made biconvex ..