SU1270735A1 - Versions of high speed catadioptric lens - Google Patents

Abstract

The invention relates to optical instrument making and allows improving image quality in the visible and near infrared spectral regions. According to the first version of the device, the first correction component is glued together from two-bent 2 and two-convex 3 lenses, the refractive indices of materials of which differ by no more than 0.003, and the dispersion coefficients are no less than 6. s in the Second positive. The correction element is made in B1 than the glued (L of two convex lenses 5 - And negative meniscus 6. The luminous flux is reflected by primary 1 and secondary 4 G 3 g 4-1 V and 1C vj o its O1 tpuf.f

Description

concave spherical mirrors and passes through corrective components, collected in the focal plane of the lens. The second embodiment of the lens is shown. 2 sec. f-ly, 3 ill.

one

The invention relates to optical instrumentation, namely to mirror-lens lenses, and can be used in television technology and astronomy.

The aim of the invention is to improve the image quality in the visible near-infrared region of the spectrum.

FIG. Figure 1 shows the optical scheme of the lens / mirror lens, the first option; in fig. 2 - the same, the second option; in fig. 3 is a graph of the polychromatic frequency-contrast characteristic SCHKH) lens n the first option.

In the first embodiment (Fig. 1), the high-aperture mirror-lens lens contains a primary concave mirror 1, the first correction component glued together with a bent arc 2 and a two-convex 3 lens, the secondary mirror 4 applied as a reflective coating on the surface of a two-convex lens 3 of the first a correction component, and a second positive correction component, glued together from a two-convex lens 5 and a negative meniscus 6.

The luminous flux hits the primary concave spherical mirror 1, is reflected from it and passes through a double-curved lens 2 and two double lens 3, hits the secondary concave spherical mirror 4 that is facing the concavity of the image, is reflected from it and passes through the double-glazed swan lens again 3 and a double-curved lens 2, then falls on the second corrective positive component, passes lenses 5 and 6 and assembles in the focal plane of the lens.

An example of a specific implementation of the invention is the Reflexcarress-8 apertured mirror-lens lens with a focal length of 790 mm, a relative aperture of 1: 2, an angular field of A ° 20, and high image quality in the spectral range 0.486-0.85 µm. According to the second variant, the apertured mirror-lens objective lens contains a primary concave mirror 7, a concave-flat lens B, on the flat surface of which a reflective coating of the secondary mirror 9 is applied, and a corrective positive component from two blocks, the first of which is glued from a double-tinted lens 10 and a negative meniscus 11, and the second of double-bent 12 and two double-tinted lenses 13.

The luminous flux enters the primary concave mirror 7, is reflected from it and passes the corrective concave-flat lens 8, reflects from its flat surface on which the mirror coating is applied and again passes the correction concave-flat lens 8, then passes the first corrective positive component glued together from lenses 10 and 1, the second correctional positive component, glued from lenses 12 and 13, which collects the luminous flux in the foil plane of the objective.

An example of a specific implementation of the invention is a mirror-lens Reflecclusar-8 lens, having a focal distance of 1000 mm, a relative aperture of 1: 3, an angular field of 4, and a high image quality in the range of 0.486-0.85 µm.

The proposed lens has a high image quality.

Claims (2)

Thus, in the first variant of the lens, the longitudinal spherical aberration does not exceed 0.01 mm, astigmatism is 0.05 mm, distortion is 0.015%, magnification chromatism is 0.025 mm; the maximum aberration of the wide meridional beam does not exceed 0.06 mm. The lens provides high contrast values (Fig. 3). In the second version of the lens, the longitudinal spherical aberration does not exceed 0.025 mm, the astigmatism is 0.35 mm, the distortion is 0.17%, the chromatism is 0.05 mm, and the aberration of the wide meridional beam is no more than 0.055 mm. Formula 1: A fast mirror-lens objective lens containing a primary concave mirror, a first correction component, a secondary mirror in the form of a reflective coating on the surface of the first correction component, and a second positive correction component, characterized in that, in order to improve the image quality in the visible near infrared region spectrum, the first correction component is made of glued from bent-concave and two-convex lenses, the second correction component is made-glued from a two-convex lens and a negative meniscus, while in the first core ff X / X /, And and If and if f; Zh &. frue.2 of the recitational component, the refractive indices of the materials of the lenses differ by no more than 0.0033, and the dispersion coefficient of the two-bent lens exceeds that of the two-folded lens by at least 6. 2. High-aperture mirror-lens lens containing a primary concave mirror, a concave-flat lens, on the flat surface of which a reflective coating of the secondary mirror is applied and a corrective positive component, characterized in that, in order to improve image quality, in the visible and near infrared spectrum , the correctional positive component is made of two blocks, the first of which is glued together from a two-convex lens and a negative meniscus, the second one is glued together from a two-concave and two-convex lenses, and this distance between the concave-flat lens and the first glued unit is 0.45 fc, f,. and the distance between the glued blocks is (0.2-0.25) f-, where fpg is the focal length of the lens. ABOUT 20 0 60 t in fig.Z