SU137692A1 - The method for determining the refractive indices and dispersions of the studied bodies - Google Patents

Description

The known methods for determining the refractive indices and dispersions of the studied ones, 1, do not provide for the study of small crystals and objects with curves and vertices.

The method according to the invention does not have this disadvantage. The essence of the invention is that the determination of the refractive indices of the dpsner pressure of the jets, ecl ets with the optical micrometer of the first micrometer by measuring the zones and the internal reflection of it in a conic-shaped projection, which is produced by the microscope objective with the limiting apparatus and the Bertra lens.

A micro-refractometer for this method is shown in the form of a conventional pulpfri.ha-type plastic microcircuit, the li of which is installed immersion lens with a front, 1 glass of glass with high definition and more than that.

The drawing shows a scheme for carrying out the method with the aid of such a micro refractometer in reflected light and in transmitted light.

An opaque illuminator with Beck's part 2 is inserted between the microscope lens and the microscope tube, through which illumination of the studied irenarate (crystal) 3, which is in immersion 4, is performed. Microstracon focuses on the upper edge of the crystal, after which the Bertrand 5 lens is turned on and examines the exit pupil of a microcon lens. Using a microscopic micrometer 6, the diameter of a dark circle on a light background in the pupil of the lens determines the crystal breakthrough indicator (under these conditions;: dark circle parameters are directly proportional to the rate of refraction of the objects under study).

In the case when the face of the lens being scanned, from which a reflection is observed, is not parallel to the outer surface of the front lens of the lens, the dark circle in the pupil of the lens will shift to the side. In this case, it is returned to the central position, the slope of the preparation is the corresponding angle.

Measurement at two mutually alternating polarizer positions, with appropriate crystal orientation, can determine all the refractive indices of anisotronic crystals.

The measurement in monochromatic light of different wavelengths determines the dispersion of the crystal.

Similarly, they are measured in a light source and in the light, but there is no onac-il. Hummer in this column, and a high-aperture condenser with a frontal lens made of glass with a high refractive index is placed under the preparation; at the same time, the di; m meter of the light circle in the center of the lens is measured against a dark background.

The slide must also have a high ira /; omlen.

Subject invention

The method of determining the refractive indices and dispersions of licensed bodies with the use of a micropractometer of the type P Lfria, an optimal number, in order to make it possible to investigate small crystals and bodies with curved surfaces, the refractive indices and the determination of the dispersion are measured by measuring with a micrometer meter the zones of total internal reflection in a Konosksnichesky projection given by a microscope lens with a limit aperture and a Bertrand lens.