SU1137427A1 - Catadioptric lens - Google Patents

Abstract

A MIRROR-LENS LENS, containing a primary concave spherical mirror and a secondary mirror applied on the surface of the correction element facing the object, and an aberration compensator, characterized in that, in order to increase the relative aperture and increase the angular field of view, the correction element is designed as a plane-parallel plate with a concave central part of the surface facing the image, and the aberration compensator in the form of a two-convex lens and a positive pattern, concavity braschennogo to the image. (/)

Description

The invention relates to an optical instrument, namely to a lens / mirror lens, and can be used for operation in the infrared region of the spectrum. A catadioptric lens is known, containing a correction element, a Mangein mirror, a secondary mirror, and a near-focus compensator for aberrations lj. The disadvantages of the system are a small angular field of view (3.2) and a low relative aperture (1: 1.49). Also known is a mirror-lens lens containing a primary concave and secondary convex mirror a two-lens compensator of aberrations, installed in front of the primary mirror, and a correcting element in the form of a meniscus with its concavity facing image 2. A lime lens has an enlarged field of view (9), but a reduced relative aperture (1: 2). The closest in technical essence to the proposed is a mirror-lens lens containing a primary concave spherical mirror and a secondary mirror, mounted on the surface of the correction element facing the object, and the compensator of aberrations sj. The disadvantages of the known lens are a small angular field of view (4) and a small relative aperture (1: 2). The purpose of the invention is to increase the relative aperture and increase the angular field of view. The goal is achieved by the fact that in a mirror-lens lens containing a primary concave spherical mirror and a secondary mirror applied on the surface of the correction element facing the object and the aberration compensator, the correction element is also shaped as a plane-parallel plate with a concave central part of the surface converted to image, and the aberration compensator - in the form of a double-tipped ninza and a positive meniscus, with the concavity facing the image. Installed between the specular surfaces Article E afocal lens correction element configured as an annular plane-parallel plate helps intensive development system relative aperture, eliminating spherical aberration kuyu other optical circuit elements. The same objective is served by the air lens formed by the concave surface of the central negative and facing the object by the first surface of two convex lenses. The positive near-focal components of the optical scheme guarantee successful correction of field aberrations. Due to the fact that all lens components of the lens are made of quartz glass, the system works in the infrared region of the spectrum. The drawing shows the principal optical layout of the lens. I. The optical scheme of the proposed lens contains the primary, consecutively located in the course of the beam. a concave spherical mirror 1, a correction element 2, on the outer flat surface of which, facing the object plane, a reflective coating is applied to the decentered round platform, forming a secondary flat mirror 3.. Near the focal plane of the lens, there are two co-convex lens 4 and a positive meniscus 5 facing the concavity of the image. The light flux reflected from the primary mirror 1 passes through a correctional plane-parallel plate, the annular component of the correction element 2 nd falls on the secondary mirror 3, on which the light rays undergo a second reflection. Next, the luminous flux passes through the central zone of the element 2, made in the form of a flat-concave negative lens, and by means of positive near-focus lenses 4 and 5 is collected in the focal plane of the objective. The proposed lens, compared with the prototype (mirror-lens lens), increases the relative aperture to a value of 1: 0.78 and an angular field of view to 16. With I, this lens is a long-focus No. -f. The images of the volume of observation 11374274 of the observa tion guarantee the operation of the system in the spectral range 2.7–2.8 µm.

Claims (1)

A MIRROR-LENS LENS, containing a primary concave spherical mirror and a secondary mirror deposited on the surface of the correction element facing the object, and an aberration compensator, characterized in that, in order to increase the relative aperture and increase the angular field of view, the correction element is made in the form. a plane-parallel plate with a concave central part of the surface facing the image, and the aberration compensator is in the form of a biconvex lens and a positive meniscus, with a concavity facing the image.