RU2047200C1 - Lens for nearest ir region of spectrum - Google Patents

Abstract

FIELD: optical instrumentation engineering. SUBSTANCE: lens incorporates four components: first component cemented positive lens, second component positive meniscus, third component negative lens and fourth component positive lens. EFFECT: facilitated manufacture, enhanced operational stability. 2 cl, 8 dwg, 1 tbl

Description

 The invention relates to special lenses and can be used in night telescopes.

 Closest to the invention is a lens made of sequentially arranged biconvex lens, a positive meniscus convex to the object, biconcave lens, biconvex lens.

 The lens is made with a relative aperture of 1: 1.8 at a focal length f 'of 100 mm. The design of the lens does not allow to obtain the desired image contrast.

The objective of the invention is to provide a lens with a focal length f '135 mm, a relative aperture of 1: 2, with an angle of field of view of 7.6 ^about in the spectral range of 0.68-0.88 microns.

 EFFECT: increased image contrast in the center of the field of view to 0.8, and on the edge to 0.7 for a spatial frequency of 15 1 / mm.

 For this, in the near-infrared lens containing four components, the first component is a biconvex lens, the second component is made in the form of a positive meniscus convex to the object, the third component is made in the form of a negative lens, the fourth component is made in the form of a positive lens, in contrast to the known first component is made in the form of a glued lens, consisting of a biconvex lens and a negative meniscus. The third and fourth components can be made in the form of a meniscus, with the third component facing concavity to the image, and the fourth component convex to the subject. This embodiment allows you to get lenses with the characteristics listed in the table.

 For a lens with f '135.36 mm and a relative aperture of 1: 2, Fig. 1 shows an optical diagram; figure 2 presents structural data; in FIG. 3 graphs of aberrations for D ∞ in FIG. 4 graphs of the modulation transmission coefficient (ILC).

 For a lens with f '135.03 mm and a relative aperture of 1: 2.8, FIG. 5 shows an optical design; figure 6 shows the structural data; Fig.7 graphs of aberration for D ∞; on Fig graphs KPM.

 The near infrared lens of FIG. 1 consists of four components. The first component contains a glued lens, consisting of a positive lens 1 and a negative meniscus 2, facing concavity to the subject. The second component is made in the form of a positive meniscus 3, convex to the subject. The third component is made in the form of a negative lens 4, the fourth component in the form of a positive lens 5.

 The near infrared lens of FIG. 5 consists of four components. The first component contains a glued lens, consisting of a positive lens 6 and a negative meniscus 7, facing concavity to the subject. The second component is made in the form of a positive meniscus 8, convex to the subject. The third component is made in the form of a negative meniscus 9, facing concavity to the image, the fourth component is made in the form of a positive meniscus 10, convex to the object.

 The lens works as follows.

 The first, second, third and fourth components provide the required focal length, while the aperture diaphragm is located behind the third component at a distance of 12 mm from it.

 Aiming at a distance of D 5 m is carried out by moving the fourth component to a value of 7.64 mm (according to claim 1) or 4.63 mm (according to claim 2), i.e. from the image plane to the third component.

Claims (2)

 1. A LENS FOR THE NEAR IR SPECTRUM SPECTRUM, containing four components, the first component being a biconvex lens, the second component made in the form of a positive meniscus convex to the object, the third component in the form of a negative lens, and the fourth component in the form of a positive lens, characterized in that the first component is made in the form of a glued lens, consisting of a biconvex lens and a negative meniscus.  2. The lens according to claim 1, characterized in that the third and fourth components are made in the form of menisci facing concavity to the image.

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