SU723482A1 - Immersion objective for microscope - Google Patents

Description

The invention relates to instrumentation, namely to optics, and can be used in metallographic microscopes.

A well-known lens is the achromat of oil immersion with a numerical aperture of 1.25 and an increase of 90 (1]. 5

This lens has insufficient resolution for some studies due to insufficient numerical aperture. The image quality of the lens is also insufficiently high due to the presence of a significant secondary spectrum, which prevents the use of the lens for microphotography.

The closest technical solution to the intended one is the achromatic is a water immersion lens for a microscope with a numerical aperture of 0.85 and a magnification of 40 ^x , containing two single positive lenses and three two-lens bonded components and a negative double-glued lens [2] .20

This lens has insufficient resolution for some studies due to insufficient numerical aperture, as well as low quality of 25 images due to the significant secondary spectrum.

The aim of the invention is to increase the numerical aperture of the lens while improving image quality.

This goal is achieved by the fact that the immersion lens for the microscope, containing two positive single lenses, three positive double-glued lenses and a negative double-glued lens, is equipped with a triple-glued negative meniscus installed between single lenses, facing concavity to the object.

The drawing shows an optical diagram of the lens. The lens consists of two single positive lenses 1 and 2, three two-lens components 3-5 and a negative three-lens component 6 and a two-lens component

7.

The presence of an additional negative three-lens component 6, glued from menisci 8-10, convex to the image, and located between single positive lenses I and 2, made it possible to increase the numerical aperture of the lens and achieve good correction of astigmatism, position chromatism, spherical and spherochromatic aberration.

The presence of a negative two-lens bonded component 7, located behind the third two-lens component 5 and 5-7 focal lengths from the entire system, made it possible to achieve a good correction of the secondary spectrum.

The lens has the highest resolution among known lenses for light visual microscopes (the resolution of the proposed lens exceeds the resolution of the best of the analogues by more than 14% due to the large numerical aperture of 1.60).

Thanks to the correction of the secondary spectrum, it became possible to use the lens for microphotography.

Claims (2)

37 ma, chromatism of position, spherical and spherochromatic aberrations. The presence of a negative two-lens glued component 7, located behind the third two-lens component 5 and removed from the last one by 5–7 focal lengths of the entire system, made it possible to achieve a good correction of the secondary spectrum. The lens has the highest resolution among the known lenses for light visual microscopes (the resolution of the proposed lens exceeds the resolution of the best analogue by more than 14% due to the large numerical aperture value of 1.60). By correcting the secondary spectrum, it became possible to use a lens for microphotography. An immersion objective lens for a microscope containing two positive single lenses, three negative dual glues and a negative dual glued lens, characterized in that, in order to increase the numerical aperture while improving the image quality, it is equipped with a three glued negative meniscus facing a single concave to the object. Sources of information taken into account when examining 1. Skvortsov, G. Ye., Et al. Microscopes, L., Mashinostroenie, 1969, p. 183. 2. US Patent No. 3525562 ,, class. 350-215, publ. 1967 (prototype).