SU1624387A1 - Reproduction objective - Google Patents

Abstract

The invention relates to an optical instrument making and allows to increase the resolution. To do this, in a symmetrical lens of two groups of lenses separated by a diaphragm 1, each of which contains a two-convex lens 2, a glued component 3 of two lenses and a negative lens 4, the first lens of component 3 is formed as a negative meniscus 5, which is convex to the diaphragm 1 , the second is in the form of a two-convex lens 6, and the negative component is in the form of a double-curved lens 4. The focal length of component 3 does not exceed 0.5f, and the coefficient of dispersion of lenses is glued together and the air gap between them is not less than 49 °. between lens 2 and component 3 is (0.034), 05) f, where f is the focal length of the lens. 1 il.

Description

The invention relates to optical instrumentation and can be applied in electronic equipment and in projection installations for operation and in the control of high-resolution cathode ray tubes.

The aim of the invention is to increase the resolution of the lens.

The drawing shows an optical diagram of the proposed lens.

The reproduction lens contains two groups of lenses symmetrically located relative to the aperture diaphragm 1, each of which consists of three components. The first component is made in the form of a biconvex lens 2, the second from a double-glued lens 3, the first lens of which is a negative meniscus 4, facing curved to the diaphragm 1, the second is a biconvex lens 5, and the third component is a biconcave lens 4.

The installation of the bonded component 3 at a specified distance from the biconvex lens 2 compensates for the spherical aberration introduced by the first and second 25 surfaces of the biconvex lens 2 and the astigmatism introduced by the first and second surfaces of the negative lens 4.The difference in the coefficient of dispersion of the lenses of the bonded component 3 is 49. 30 compensates for position chromatism and the secondary spectrum without introducing spherochromatic aberrations. When the dispersion coefficient difference is less than 49, the position chromatism and the secondary spectrum increase, and, therefore, the polychromatic frequency response deteriorates.

The focal length of the lens is 213.4 mm, the focal length of component 5 glued 5 is 103 mm, the difference between the dispersion coefficients of the negative meniscus 5 and the biconvex lens 6 is 49. The distance between lenses 2 and 3 is 0.04 mm from the focal length of only 10 of the lens.

The lens is achromatized in a wide spectral region λ = 400-700 nm. The longitudinal spherical aberration of the lens does not exceed 0.1, astigmatism is 0.1.

Claims (1)

Claim A reproduction lens, consisting of two lens groups symmetrical with respect to the diaphragm, each of which contains a biconvex lens, a glued component of two lenses and a negative lens, characterized in that, in order to increase the resolution, the glued component is made of a negative meniscus, turned concave to a diaphragm, and a biconvex lens, and the negative component is made in the form of a biconcave lens, and the focal length of the glued component does not exceed 0.5f ', the difference in the coefficients the lens spacing of the bonded component is not less than 49, and the air gap between the biconvex lens and the bonded component is (0.03-0.05) f ', where f ^{1 is the} focal length of the lens.