SU1219994A1 - Microscope lens - Google Patents

Abstract

The invention relates to the field of optical instrumentation and allows to increase the numerical aperture and improve the image quality of the lens in the visible region of the spectrum. The lens consists of four components, the first of which is made in the form of a positive meniscus glued together from two-concave and two-convex lenses made of materials with a refractive index difference of at least 0.3, and serves to provide the required magnification and correction of astigmatism and field curvature. The reduction of the numerical aperture of the lens and the double correction of spherical aberration and astigmatism are provided by the second component, which is a triple gluing of a flat-concave lens, a negative meniscus convex to the object, and a two-convex lens. The third component, the positive meniscus, oriented by the concavity to the object, corrects aberrations in wide oblique beams. The fourth afocal component is glued together from two double-convex lenses and located between them. The focal length of the lens is 7.357 mm, the numerical aperture is 0.77. 1 il. (Lu with so with d

Description

This invention relates to an optical instrument making, namely microscopic lenses.

The aim of the invention is to increase the numerical aperture and improve image quality in the visible region of the spectrum,

The drawing shows the optical layout of the microscope objective.

The lens consists of four components. The first component is made in the form of a positive meniscus glued together from double-bent 1 and double convex 2 lenses, made of materials with a difference of refractive indices of at least 0.3. The second component is triple gluing, consisting of a flat-bent lens 3, a negative meniscus 4, convex to the object, and a two-convex lens 5. The third component is a positive meniscus 6 oriented by the concavity to the object, the fourth component is a three-glued one formed by a two-convex the lens is double-cocked ;, lens 8 and the double-convex lens 9. The aperture diaphragm iO coincides with the rim of the last objective surface. The optical power of the fourth component does not exceed 0.04 of the optical power of the lens. The last surfaces of the first and second components are confocal, i.e. concentric to subjects for them.

The first component of the lens, frontal, serves to reduce the numerical aperture of the subsequent part of the lens, providing the required magnification, correcting astigmatism and the curvature of the field.

The second component is the correction slit to reduce the numerical aperture of the lens, double correction of spherical aberration and astigmatism.

The first two components allow the development of significant apertures in the reverse direction of the rays, while introducing a smaller chromatism of magnification than aplanatic menisci, used as frontal ones. The presence in the first and second components of the surfaces, concentric objects for

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them, positolite reduce the aberrations of the system.

The third component is the basal force one and, moreover, corrects aberrations in extra inclined beams.

The fourth component, afocal, is corrected for the secondary spectrum and spherochromatic aberration.

0 The microscope lens works with an infinity tube and a cover glass with a standard thickness of 0.17 mm, the first surface of which coincides with the object. Chislov Aperture

5 lenses 0.77 focal length 7.357 mm. For the correction of chromatic aberrations, the proposed lens is semi-chromatic; it gives good image quality across the field for visible DIMA spectral range.

The maximum wave aberration for a full aperture in the range from line G to line C is 0.814 mm.

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Claims (1)

Invention Formula I A microscope lens containing four components, the first of which is postively, the second is a threefixed lens, the third is a positivis, the fourth is a two-convex lens, glued together from two two-convex lenses and located between them a double-bent lens, characterized by that, in order to increase the numerical aperture and improve image quality in the visible spectrum, the first component Q is made in the form of a meniscus glued together from double-bent and double-convex lenses, the second one is glued from a flat-curved lens, a negative meniscus and a two-convex lens, the third one is made in the form of a meniscus with concavity to the object, while the fourth component optical power is less than 0 , 04 optical power of the lens, the last surface The p and the first and second components are confosable and bent and bent and the convex lenses of the first component are made of materials with a refractive index difference of at least 0.3. five / / at 9 10