SU781732A1 - High-power objective lens with increased rear focal length - Google Patents

Description

The invention relates to optics, namely, to the class of high-aperture lenses used in photography, microphotography, projection technology, television, underwater photography, filming.

Famous high-aperture lenses have an angular field of view in the space of objects up to 3Cf. They have a relative aperture of 1: 0.63 for foreign analogues and 1: 0.9 for domestic analogues. The ratio of the rear focal length to the rear focal length SJ ../ f 5 approaches 1, but the relative aperture of the lens drops.

The most close to the proposed high-aperture lens with a remote 20 entrance pupil, containing four components, the first of which is a dual-glued negative, the second is a single-lens, the third is a positive meniscus, and the fourth is a positive 25 lens.

However, the existence of the construction of apertures of lenses does not have large rear focal segments, they have limited functionalities.

These possibilities do not have a sufficiently good light distribution over the field of view and do not provide simultaneous correction of aberrations of wide oblique beams for the meridional and sagittal planes.

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

The goal is achieved by the fact that the first lens of the first component is made in the form of a negative meniscus, and the second lens is in the form of a positive meniscus, facing the object with a concavity, the third component in the form of a single meniscus, the image being curved towards the surface, single meniscus, the second component being located from the first one at a distance of 0.3–0.4 of the focal length of the lens, and each of the following components is relative to, its previous component is located not more than 0.01 lens focal length.

The drawing shows the objective lens (the optical-optical scheme of the proposed lens consists of four components. The first one is made of a dual-lens negative lens formed by a negative meniscus 1 and a positive menus 2 and is reported as thick as the focal distance of the lens, and carries out correction of spherical aberration and coma It is located at the focus of the system, consisting of the second component 3, and the third component 4. The distance of the second component 3 from the first component of the lens 1, 2 is equal to O, 30, 4 of the focal length of the second component 3 influences the spherical aberration, to whom, as well as the wide rays of the wide oblique beam. The third component 4 is a single positive meniscus facing concavity to the image, located at a distance of not more than 0.01 of the focal length of the lens from the second component 3, affects spherical aberration, coma and aberrations of rays and wide oblique beams. The fourth component 5 - a single positive meniscus facing the concavity of the image - corrects the curvature of the visual field of the image surface, igmatizma. This arrangement is due to the fact that the first component, the dual-gamma negative lens 1, 2, allows to obtain a significant increase in the rear focal length of the lens. The second component 3 must be positioned from the first component of the lens 1,

2 at a distance of 0.3-0.4 of the focal length of the lens so that the first component is placed in the focus of the system consisting of the second

3 and the third 4 components. These components together form a block designed to minimize spherical aberration, affecting the image quality of the lens, so that the third component 4 is located at a distance of no more than 0.01 of the focal distance of the lens from the second component 3. The fourth component 5 allows you to increase the relative aperture of the protuberance where (n is the refractive index of the lens), since its first surface 6 is aplanatic. The value of n should be chosen possibly bolyie. In order to minimize the posterior focal length to be minimal, the fourth component 5 is positioned from the third component 4 at a distance of no more than 0.01 of the focal length of the lens.

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The shape of the first component is concave, concavity in the direction of the object due to the fact that names 781732

but such a shape provides a greater increase in the rear focal length. The shape of the second and third components is concave and convex, the concavity towards the object and the image, respectively, is due to the fact that the second and third components are a common block designed to minimize spherical aberration, which unambiguously determines the Q shape of the lenses. The concave shape of the fourth component with the concavity towards the side of the image is due to the fact that the first radius of the third component is aplanatic, which determines its sign, the second surface is also concave towards the image, since this surface is corrective to correct the curvature of the field of view in the image space , and to correct residual negative curvature, such a surface shape is required.

Claims (4)

1. Authors certificate of the USSR 218471, cl. G 02 B 11/30, 1968. 2.naTiEHt USA 3556642, cl. 350-216, 1911. 3. Pat. FRG 2432589, cl. 42 4/08, 1977. 4. USSR author's certificate  547707, cl. G 02 B 9/60, 1975 (prototype).