SU1693579A1 - Achromatic microscope objective - Google Patents

Abstract

The invention relates to optical instrument making, namely to the achromatic lenses of microscopes, and can be used with various types of microscopes. The purpose of the invention is to improve the image quality by reducing the curvature of the image and increasing chromatism. The microscope lens contains three positive components, the first of which is made as a single flat-convex lens 1, the second one as a single positive lens 2, the third one as a two-glued lens 3 consisting of a negative meniscus 4 and a two-convex lens 5. The distance between the second and third components are at least 0.42f. Behind the third component at a distance of not less than 0.75f, there is a positive meniscus 6, facing its concavity to the space of objects. The ratio of the optical forces of single components is 1.27: 1.71: 1.28 f, where f is the focal length of the lens. 1 il.

Description

The invention relates to the achromatic lenses of microscopes and can be used with various types of microscopes.

The aim of the invention is to improve the image quality by reducing the image curvature and magnification chromatism.

The drawing shows the principal optical scheme of the proposed microscope objective.

The lens contains a single flat-convex lens 1, a single double convex lens 2, a positive lens 3 glued from a negative meniscus 4 and a double convex lens 5, and a positive meniscus 6.

The aperture diaphragm is located in the rear focal plane of the lens. The lens is designed for a tube length of 200 mm.

The position of lens 2 was chosen experimentally using the method of calculating microscope objectives by parts, based on the correction of spherical aberration for a point on the axis, spherochromatic aberration, and chromatism of the position.

To correct the curvature of the image, coma, and chromaticity of magnification, a single positive meniscus 6 is applied, facing the concavity towards the object. The distance to this meniscus and its shape were chosen experimentally, subject to the correction of these aberrations.

The choice of optical material for all components of the lens provides correction of chromatic aberrations and coma,

All positive lenses are made of the same glass brand (in this example, the calculation is made of glass of the brand L CZ with ne 1,4891,

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 69.87), and the negative lens 4 of the third component 3 is made of glass brand TF4 with ne 1.7402, Ve is 27.94. The ratio of the forces of single positive lenses is chosen empirically and corresponds to the optimal correction of all aberrations of the achromatic microscope objective.

The proposed lens has an improved aberration correction, reduced image curvature - at the edge of Zt -1.40 mm, Zs -2.75 mm, in the zone - Zt -0.70 mm, Zs -1.38 mm.

The overall lens layout provides lens distortion correction.

Due to the image curvature correction, the transverse aberrations of a wide oblique beam of rays are significantly reduced,

In the above version of the calculation, the achromatic lens of the microscope has the following aberrations:

The transverse spherical aberration of a point on the axis for the base color is:

pupil edge 0.0008 mm

zone 0,015 mm

The transverse spherical aberration for a point on the axis in the entire spectral range does not exceed 0.02 mm, Pupil aberration for the main wavelength does not exceed 75 A, and for the whole spectral range is 1.01 A.

Nzisoplanasia coefficient:

pupil edge - 0.055

zone - 0.032

The chromatism of the increase over the entire field does not exceed 0.008%, i.e. almost completely eliminated.

The mean square wave aber- rat to the point on the axis is 0.057. The value of the rms wave aberration over the spectral interval, the pupil is equal to:

1) without defocusing and distortion 0.133

2} without defocusing, distortion and curvature of images 0.

A lens from an object located at a finite distance drops the beam of rays, sequentially passes the components 1, 2, 3 and 6 of the lens and at the final distance S creates a real, enlarged, inverted image of the object.

As a concrete example of calculation, an achromatic microscope objective is presented with the following optical characteristics:

Linear increase in V 10x

Aperture A 0.25

Focal length f 21.42 mm Lens length L 44.69 mm

Lens height H 45 mm

The distance from the last surface of the lens to the image plane S 191.56 mm Image size 2/20 mm.

Claims (1)

Invention Formula Achromatic microscope lens, containing three positive components, the first of which is a single plane; the lens, the second is a single duplex lens, the third is a duplex lens from a negative meniscus and a duplex lens, characterized in that, in order to improve image quality by reducing the curvature of the image and increasing chromatism, the third component at a distance of not less than 0.75 f has a positive meniscus, facing with its concavity towards the object and made of optical glass with a refractive index of not more than 1.5 and the coefficient of average dispersion is not less than 65, while the distance between the second and third components is not less than 0.42 f, and the ratio of the optical forces of the first, second and last components equal to (1.27: 1.71: 2.8) f, where f is the focal length of the lens. / I A 44,69 / &YU 191.56