SU103231A2 - Immersion Refractive Index Measurement Method - Google Patents

Description

The subject of the chosen main author. St. A 101427 is immersion method of measuring nokazatelei nrelomleni solid transparent objects node microscope zaklyuchayuschschhs in TO1 that, with a view to passing only beams corresponding coincidence refractive index of the test object n immersion zhpdkostp, in the back focal iloskosti microscope objective set aperture having an aperture smaller than the aperture dispersed beam.

The present invention provides for the further development of an immersion method for measuring refractive indices according to the author. St. L 101427 is the fact that the measurement of the refractive indices of solid transparent objects of the microscope nodes is carried out in a dark field, for which a retro-glare screen is installed in the rear focal plane of the lens.

An opaque screen, with a diameter of about 1 mm, is mounted on a glass plate in its center, mounted on the lens in the case when the rear focal plane of the lens coincides with the edge of the lens rim. If the rear focal edge of the lens does not coincide with the edge of the lens rim, a cylindrical mandrel of the desired length is used, at the end of which a glass fin is fastened that carries an opaque screen in the center. The mandrel, depending on the position of the rear main plane of the object, is placed inside the lens or extended to align the plane of the opaque screen with the rear main lens of the lens.

If an immersion preparation with equal refractive indices of two media is placed in the course of the rays of microEON, then a dark zero is distorted. When applied white light, due to the difference in the dispersion of solid and liquid media, the equality of the refractive index of the two media can be achieved only for any one wavelength. Rays of this wavelength will not deviate from the original transmission, therefore, they will be delayed by the screen. Rays of all other wavelengths will experience a greater or less deviation on the refractive surfaces of the grains and will fall into the eye of the observer. In this case, colored rims are observed in the dark field along the edges of the grains.

The table below shows a table of observed color bands with the coincidence of the index of refraction of two media in different parts of the spectrum, which should be guided by measurements.

The area of coincidence of the refractive indices

Krasna

Yellow

Green

Syn

Violet

For the Intermediate regions of the spectrum, transitional colors of the rims are observed. For example, dark red and blue edges are observed for the orange region of the spectrum, and red-orange and violet-blue for the yellow-green. Thus, for one series of rims, we observe all the transitional colors from dark red and pale yellow, and for the other series - “t green-blue to purple.

The colored bars are observed with a slight defocusing, which makes it possible to consider the observed effect as static.

Color rims

Greenish Blue

Red and blue

Orange and bluish violet

Yellow and purple

Vedzhelta

The method is simple to perform and due to the clarity of the observed effect is available to unskilled workers in this field.

Subject invention

Acceptance of the method according to ed. St. 101427, characterized in that, in order to measure the refractive indices of solid transparent objects under a dark field microscope B, an opaque screen is installed in the rear focal plane of the lens.