SU1672399A1 - Fast objectives - Google Patents

Abstract

The invention relates to the field of optical instrument making, in particular to photographic lenses, and can be used in various photographic and television installations, as well as in fluorography and x-ray cameras. The purpose of the invention is to increase the aperture of the lens while reducing the vignetting at the edge of the field of view. The high-aperture lens contains a double convex lens 1, a positive meniscus 4, with a concave side facing the image plane, double folded 5, double convex 2 and a concave 8 lens, aperture diaphragm 3 located between the positive meniscus 4 and double curved lens 5, between the double coiled lens 2 and a concave lens 8 have a negative meniscus 6, a double-convex lens 3 and a negative meniscus 7, with the negative menisci facing the convex sides of the image plane, the distance between the double-bent lens 5 and a two-convex lens 2 is equal to 0.425 focal length of the lens, the distance between the two-convex lens 2 and the negative meniscus 6 is 0.11 lens focal length, the distance between the meniscus 6 and the two-convex lens 3 is 0.143 - 0.162 focal length Neither objective lens, the distance between the second negative meniscus 7 and the flat-bent lens 8 is equal to 0.189 - 0.208 of the objective focal length. All positive objective lenses are made of glass with a refractive index of N _e = 1.7476, negative - N _e = 1.8138. The lens has an magnification of -1558 ^x , a linear field of view of 500 mm, a numerical aperture of 0.086, a focal length of 104.98. The lens is corrected for the wavelength λ ₀ = 546 nm, achromatized for the spectral region from λ ₁ = 500 nm to λ ₂ = 589.1 nm.

Description

the components are negative menisci 6 and 7 with the convex side facing the image. The eighth component is a concave lens 8, and the aperture diaphragm 9.

The use of four negative lenses in the eight-lens objective made it possible to significantly improve the correction of chromatic aberrations. In addition, it uses a third component in the form of a double-bent lens with a thickness-to-diameter ratio of 0.055, a fourth component in the form of a two-convex lens, and a fifth component in the form of a negative meniscus with a ratio of thickness to diameter equal to 0.064 and the distance between the fourth and fifth components equal to 0.11 of the focal length of the lens, use as the seventh component of the negative meniscus with a thickness-to-diameter ratio of 0.207, the location of the aperture diaphragm between the second and third components In the case of positive lenses, the use of glass with a refractive index of PV 1.7465 in negative lenses and glass with a refractive index of 1.8250 in negative lenses made it possible to improve the correction of axial and oblique beams aberrations.

According to this scheme, a lens with a focal length of 104.98 was calculated for a wavelength of A 546.1 nm, an increase of 0.158, a linear field of view of 500 mm, a numerical operture of 0.086.

The lens is achromatized for wavelengths of 500-589 nm.

Claims (1)

Formula of the invention: A fast lens containing six components, the first of which is a two-co-convex lens, the second is a positive meniscus, with a concavity facing the image, the third is a two-co-curved lens, the fourth is a two-co-convex lens, the fifth is made of two-convex and negative lenses, and The sixth component is a concave-flat lens, as well as an aperture diaphragm, characterized in that, in order to increase luminosity with a simultaneous decrease in vignetting, in it between the fourth and fifth components a negative meniscus is introduced, the concavity facing the lens, the negative lens of the fifth component is made in the form of a negative meniscus concavity facing the lens, and the aperture diaphragm is placed between the second and third lens components, and the distance between the double-bent and two-convex lenses is equal to 0.425 fo6 , distance between two-convex lens and a negative meniscus is chosen to be 0.1 1 fo6., the distance between the negative meniscus and a two-convex lens of the fifth component is chosen to be (0.143-1.162) f06; distance between negative the meniscus of the fifth component and the sixth component is chosen to be (0.189–0.208) f06. positive objective lenses are made of material with a refractive index of 1.7476 and a dispersion coefficient 50.21, and the negative objective lenses are made of a material with a refractive index of 1.8138 and a dispersion coefficient of 25.17, where fo6 is the focal length of the lens. . Item plane Image plane R 1 9 5 26378