SU1536342A1 - Mirror-lens telephoto objective-anastigmat - Google Patents

Abstract

The invention relates to optical instrumentation and can be used in the development of long-focus lenses with a flat field. The purpose of the invention is to increase the angle of field of view. The concave mirror 1 and the convex mirror 2 correspond to the Cassegrain scheme. The aberration compensator is made of a positive lens 3 and a negative lens 4. The distance between the components of the compensator and between the lens 4 and the image plane is selected from the ratios given in the description of the invention. The focal distance is 2000 mm, the relative aperture is 1:13, the field of view is 1.5 °. 2 Il.

Description

This invention relates to an optical instrument, namely an objective instrument.

The aim of the invention is to increase the field of view.

FIG. 1 shows the principal optical scheme of a mirror telephoto lens; in fig. 2 - compensator for aberrations.

A telephoto lens with a focal length f1 consists of a first concave mirror 1, a second convex mirror 2 with radii of curvature r, and r 4, respectively, arranged relative to each other in a Cassegrain scheme with a distance d {between the vertices of the mirrors. The lens has a length L equal to the distance from the top of the convex mirror to the plane F1 of the lens image (Fig. 1). The lens compensator for aberrations of a two-mirror system is formed by a positive lens 3 (main planes H & Ne) of the optical power F5 from a material with an index

refraction pe and negative lens I (main plane),) optical power F4 from a material with a refractive index of n „. The lenses are located at a distance d3 from each other, and the negative lens is located at a distance d $ from the image plane F1 of the lens (Fig. 2).

The correction of spherical aberration is achieved mainly due to the shape of the surface of the concave mirror 1.

The correction of coma, astigmatism, and curvature of the telephoto lens is provided by the shape of the second mirror 2, the shape of the lenses 3 and h, and the optical power of these lenses.

The negative lens h is located in front of the image plane at a distance satisfying the condition d4 (0.015-0.017). and a positive lens 3 is located in front of the negative., hjf -d

Noah lens at a distance,

where a is the coefficient determined by Ь5 ПЬ2: л21: с аап4

venest.

f

coefficient satisfying the equation "... f-in ,,, 4 ° 4

2d1r2-r (r, - with s-1,

-yy-2 (b) (,) (,). The distinctive features of a telephoto lens reduce the higher pores of the field aberrations of the compensator 1, and thus increase the size of the corrigia, 768 microns are characterized by the following angular dimensions of the scattering spot: the axial point is 0., 13; off-axis point: meridional component

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sagittal sos

Claims (1)

Invention Formula The mirror-lens telephoto lens is an anastigmat containing a primary concave mirror, a secondary convex field by optimizing the pitch mirror and the compensator aberrations from we and the optical power of the lens compensator. , An example is a mirror-lens telephoto lens with a high shortening, the focal distance of which is f 2000 mm, the length of the lens, and the distance between the vertices of the mirrors d, 0.198f. The compensator's positive lens — the meniscus 3, convex to the space of objects, is made of a material with a refractive index 1.17 times the negative lens's refractive index, and the correction of the mirror part of the lens is corrected by a coma. With a relative aperture of 1:13 and an angular field, 5 ° image quality in the spectral range 0.486 µm 20 25 thirty two lenses, the first of which is positive, the second is a negative meniscus convex to the image plane, characterized in that, in order to increase the field of view, in the aberration compensator a positive lens is made in the form of a meniscus convex to the space of objects, and is set at a distance of 0.027-0.035 of the focal length of the telephoto lens from the negative meniscus, while the negative menis is set in front of the image plane or at a distance from it from 0.015 to 0.017 of the focal length of the telephoto lens a, and the refractive index of a positive meniscus exceeds the refractive index of a negative meniscus. 0 five 0 two lenses, the first of which is positive, the second is a negative meniscus convex to the image plane, characterized in that, in order to increase the field of view, in the aberration compensator a positive lens is made in the form of a meniscus convex to the space of objects, and is set to the distance 0.0227-0.035 of the focal length of the telephoto lens from the negative meniscus, while the negative meniscus is positioned in front of the image plane at a distance from it from 0.015 to 0.017 of the focal length of the teleobject willow, and the refractive index of a positive meniscus exceeds the refractive index of a negative meniscus. 2