SU723481A1 - Reflex lens objective - Google Patents

Description

The invention relates to optical instrument making, specifically to mirror-lens lenses, and can be used in astronomy, photography and television.

Mirror-lens lenses are known, consisting of an aspherical or spherical mirror and one or two successively located afocal two-lens compensators in a convergent beam 1, 2.

All these lenses have large residual aberrations. Applying aspheric to the mirror slightly improves the image quality, but reduces the manufacturability of the design.

The closest to the present invention is a lens, which consists of a spherical mirror and two successively located afocal compensators, the air gap between which is a parameter for correcting astigmatism 3,

The lenses of each compensator are made of glass of the same brand. The need to correct spherical aberration and coma of a spherical mirror due to small values of the heights of the axial beam on the surfaces of the compensators leads to steep radii k, therefore.

entails the emergence of higher order aberrations, thereby limiting the possibility of increasing the relative aperture and field of view due to large residual aberrations.

The purpose of the invention is to increase the relative aperture and angle of the field of view of the lens.

For the proposed lens, the second compensator is designed as a positive lens, glued together from consecutively double-folded and double-curved lenses and a positive meniscus facing concavity to the image, the first and third surfaces of this compensator being focused on the focus of the lens, and the compensator thickness is 0, 1-0.2 focal length of the lens.

The drawing shows the optical scheme of the gland lens.

The lens contains a spherical mirror 1, an afocal compensator consisting of a negative 2 and a positive 3 lenses, a second compensator consisting of consecutively glued two convex 4 and a double-concave 5 lenses and a flat meniscus 6 facing inward to the image plane. . 372 The first concentric radius of the compensator introduces positive astigmatism, and the latter, being close-focus, brings positive curvature to the floor. The second compensator does not affect the monochromatic aberrations of the axial beam. Making the compensator in the form of a positive lens with a thickness of 0.1-0.2 of the objective focal length results in a significant chromatism of magnification. For achromatization of the lens in the second compensator, the radius of the second surface is made chromatic. The effect of this radius on the chromatism of magnification is provided by introducing negative chromatism of the position by making the lenses of the first afocal compensator of glass with a difference of dispersion coefficients 10.1. The final correction of chromaticity increase is achieved by introducing on the last surface of the second compensator a difference in dispersion coefficients of 45 j6. At the same time, the lenses of the second compensator are made of glasses with the same refractive indices. The second compensator makes it possible to increase the luminosity in the chimney system n times. This solution allowed the floor} lens with the following characteristics: 1: 1.7 relative aperture; field of view - 4 formulas of the invention A mirror-lens lens containing a concave spherical mirror and the first two-lens afocal and second compensators located behind it, characterized in that, in order to increase the relative aperture and field angle, the second compensator is made in the form of a positive lens glued together from successively located double convex and double convex lenses and a positive meniscus with concavity to the image, with the first and third surfaces of this compensator concentrating ary focus lens and the compensator thickness is 0.1-0.2 focal length lens. Sources of information taken into account during the examination 1. Slyusarev G. G. Tests of optical systems, M., 1% 8, C357-358, fig. IV.13. 2. Churilovskiy V.N. The theory of chromatism and aberrations of the 3rd order, M., 1968, p.242245, fig.46. 3. Churilovskiy V.N. The theory of chromatism and aberrations of the Wth order, M., 1968, p.249254, fig.48 (prototype).

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Claims (1)

Claim Mirror-lens lens containing a concave spherical mirror and the first two-lens afocal and second compensators located behind it, characterized in that, in order to increase the relative aperture and the field of view angle, the second compensator is made in the form of a positive lens glued from successively biconvex and biconcave lenses and a positive meniscus facing concavity to the image, the first and third surfaces of this compensator concentric to the focus of the lens, and the thickness to mpensatora is 0.1-0.2 lens focal length.