SU773561A1 - Apochromatic lens - Google Patents

Description

The invention relates to technical physics, namely to optics and to lens apochromatic lenses.

It can be used to project an infinitely distant source to a receiver.

A known lens having a corrected secondary spectrum, consisting of four lenses, which is used for the visible region of the spectrum [1].

Also known is a lens in which eight lenses of Ca and fused silica are used [2]. The lens is used for the visible region of the spectrum and has insufficient field of view and relative aperture, the increase of which will lead to a decrease in image quality.

The closest to invention 20 in technical essence and the achieved result is a device that consists of two components, the first of which contains a single biconvex And negative biconcave lens, and the second is a negative meniscus, facing concavity to the image [3]. The focal length of the lens is 100 mm, the relative aperture is J 30

1: 2.5. The increase in focal length and relative aperture leads to a sharp deterioration in image quality.

The purpose of the image is to improve image quality with increasing focal length and relative aperture of the lens.

This goal is achieved by the fact that two positive and one negative menisci are installed in front of the first component, facing concavity to the image, a biconcave lens is installed in front of the second component, biconvex lenses are placed on both sides of the negative meniscus, and all positive lenses except the first are made of glass with a dispersion coefficient of 76, and all negative - 51.

The drawing shows a schematic diagram of a lens.

The lens contains two components 1 and 2, separated by an aperture diaphragm 3. Component 1 consists of two single positive menisci '4 and 5 and a negative meniscus 6, facing concavity to the image, as well as biconvex 7 and biconcave 8 single lenses. Component 2 consists of a single negative meniscus 9 placed on both sides of it of a biconvex lens 10 and 11 and installed in front of this component of a single biconcave lens 12.

The lens is aimed at a wavelength of 460 nm and achromatized for a portion of the spectrum with wavelengths of 400-700 nm.

Claims (3)

This invention relates to technical physics, namely optics and apochromatic lens lenses. It can be used to project an infinitely distant source onto a receiver. A known lens having a corrected secondary spectrum consisting of four lenses, which is used for the visible region of Spectrum 1. A lens is also known in which eight lenses of Ca F and fused silica {2 are used. The lens is used for the visible region of the spectrum and has an insufficient field of view and relative aperture, the increase of which will cause a decrease in image quality. The closest to the invention in its technical essence and the achieved result is a device that consists of two components, the first of which contains a single component. a two-convex and a negative two-bent lens, and the second is a negative meniscus, turned by a concavity to the image 3; The focal length of the lens is 100 mm; Tel'nykh hole 1: 2.5. Increasing the focal length and relative aperture leads to a sharp deterioration in image quality. The purpose of the image is to improve the image quality by increasing the focal length and the relative aperture of the lens. This goal is achieved by having two positive and one negative menisci facing the first component in series, facing a concavity to the image, a double-curved lens is installed in front of the second component, two convex lenses are placed on both sides of the negative meniscus, all positive lenses except the first one made of glass with a dispersion coefficient of 76, and all negative - 51. The drawing is a schematic diagram of the lens. The lens contains two components 1 and 2, separated by an aperture diaphragm 3. Component 1 consists of two single positive menisci 4 and 5 and a negative meniscus b, formed by concavity to the image, as well as two double convex 7 and two bent eight single lenses. Component 2 consists of a single negative meniscus 9, placed on the side of it by two convex lenses 10 and 11 and installed in front of this component of a single double-concave lens 12. The lens is directed for a wavelength of 460 nm and achromatized for a portion of the spectrum with wavelengths of 400-700 nm The claims of the lens-apochromat, consisting of two components, the first of which contains a single two-convex and two-concave lenses, and the second - a single negative meniscus facing concavity to the image, which is In order to improve image quality while increasing the focal length and relative aperture of the lens, two positive and one negative single menisci facing the first component were sequentially set up; two lenses were bent in front of the second component, and on both sides of the negative the meniscus of this component contains double convex lenses, all positive lenses, except the first one, made of glass with a dispersion coefficient of 76, and all negative lenses - 51 Sources of information taken into account in the examination 1. The author's certificate of the USSR 200806, cl. G 02 B 11/34, 1966. 2. CU1A 3490826, cl. 350214, 1970. 3. USSR author's certificate number 174395, cl. G 02 B 11/34, 1965 (prototype).