SU1444690A1 - Immersion planochromatic lens for microscope - Google Patents

Abstract

This invention relates to an optical instrument. The purpose of the invention is to increase the linear field of view, to provide enhanced functionality by operating the object with water immersion using the dark floor method and phase contrast, while simultaneously improving chromatic aberration correction and magnification. The lens contains seven components, 1 and 2 of which are positive components, 3 and. 4, 5 and 6 are positive two-lens components, 7 is a negative two-lens glued meniscus. Component 1 is made in the form of a conic-convex lens 9, and a flat-parallel plate 8 is glued to the flat surface facing the object. Component 2 is made in the form of a single positive meniscus 10 turned to the image with a convex surface. Components 3 and 4 are installed with an air gap equal to 1.6 focal length of the entire lens, and between them there is an iris diaphragm 21 "Between the components 6 and 7, in the rear focal plane of the lens, there is a plane-parallel plate 22 for applying phase rings. 1 il. but. e (L

Description

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The invention relates to optical instrument making, in particular to lenses for luminescent microscopes, microfluorometers and microspectra of fluorimeters used for studying in the light of the intrinsic fluorescence of small and weakly luminous objects when studying their chemical composition and functional state.

The aim of the invention is to increase the linear field of view and enhance the functionality by enabling the water immersion lens to operate using the dark field and phase contrast, while simultaneously improving chromatic aberration correction and magnification. ...

The drawing shows the pr1; ip | d) 1n optical scheme of the proposed lens.

The lens contains seven components 1–7, the first component is made of a plane-parallel plate 8 and a flat-cone lens 9, the second component is in the form of a positive meniscus 10, the third, fourth and fifth components are two convex lenses.

The third component is glued from the otlk-tel meniscus 11 and the two-fold lens 12, a quarter is from the negative meniscus 13 and the two-convex lens 14, the fifth is from the two-convex LENS 15 and the negative meniscus 16, the sixth component is positive, a. negative two-glued menisci. The sixth is glued together from a double-folded 17 and two-bent 18 lenses, and the seventh is made from two double-tinted 19 lenses. 20 lenses. The iris diaphragm 21 is intended to change the entrance aperture from 1.2 to 0.8, and the plane-parallel plate 22 for applying phase rings.

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The object has a lilac magnification of 80, a numerical aperture of 1.2-0.80, and a linear field of view of 22.0 mm.

In the lens, the cut-out degree of correction of aberrations within the entire field of view for the spectral region from 9 nm to 656 nm was achieved; wave aberrations do not exceed 0.1 5 L for the D line; for line C 0.27 X; for F, 0.3; 3,0,14; the chromatic difference of magnifications for a linear field of 22.0 mm is 1.4%.

Claims (1)

Invention Formula An immersion plan-achromatic objective of a microscope containing six components, of which the first is positive, the second, third, fourth and fifth are positive two-liis. Components, the sixth is a negative two-lens glued meniscus, characterized in that linear field of view and enhanced functional capabilities due to the ability of the lens to work with water immersion, using the dark floor method and phase contrast, while simultaneously improving the correction of chromatic aberrations and magnification, the first component is made in the form of a plane-convex lens, a flat positive side meniscus is inserted between the first second components, in the air, facing the image, to the flat surface facing the object. The interval between the second and third components, which is 1.6 of the focal length of the lens, has an iris diaphragm, and between the fifth and sixth components, in the rear focal plane of the lens, there is a plane parallel on the plate.