SU1717971A1 - Scanning interferometer for measuring complex refractive index of liquids - Google Patents

Abstract

Usage: in Fourier amplitude spectroscopy for direct determination of optical permanent substances. SUMMARY OF THE INVENTION: The scanning interferometer comprises two beam splitters, two reflectors, a scanning unit, and a cuvette installed in different arms of the interferometer. The cuvette is made in the form of a prism, identical to the prism of the scanning unit, and is installed with the possibility of identical movement. 1 il.

Description

The invention relates to interference spectral instruments and can be used in amplitude Fourier transform spectroscopy to directly determine optical constants.

The study of liquid samples in amplitude spectroscopy by the free surface method is known. In this case, the Michelson-type interferometer is mounted on its side so that the fixed mirror takes a horizontal position. Liquid is poured on the mirror. It forms a plane-parallel layer on it.

However, this method leads to errors in determining the thickness of the liquid layer, since a vapor layer is formed above the liquid surface. The study of poisonous and volatile liquids is also difficult.

The closest to the proposed technical solution is an interferometer containing two beamsplitters, two reflectors optically connected with them

two prisms, and the scanning of the interferogram is carried out by moving one prism.

The disadvantage of such an interferometer is the impossibility of directly measuring the complex refractive index of liquids.

The purpose of the invention is to increase the information content of measuring the complex refractive index of liquids by measuring the amplitude and phase of the light wave.

This goal is achieved by the fact that in a scanning interferometer of the Mach-Zander type for measuring the complex refractive index of liquids containing a cell consisting of an input and output windows located at a small angle to each other, and auxiliary cells for closing a volume is installed in one of the arms of the Mach-Zander interferometer instead of a compensation wedge with

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movement relative to the optical axis.

The essence of the invention is that the cuvette with the test liquid has the ability to move relative to the optical axis, and thereby the average thickness of the test liquid in the radiation beam changes.

The drawing shows a Mach-Zander interferometer for measuring the complex refractive index of liquids.

All optical elements lie in the same plane. At the inlet and outlet of the device are beam splitters 1 and 2, which are plane-parallel plates of equal thickness. A beam splitting coating is applied to one side of the plate. Flat mirrors 3 and 4 are arranged in such a way that the course lengths of the beams of both arms of the interferometer are the same. A scanning wedge 5 is installed in the beam of one arm of the interferometer, and the cuvette 6 with the test liquid is mounted in the other. The thickness of the cell depends on the nature of the optical constants of the test substance.

The interferometer works as follows.

At the initial time, the cuvette is installed in the interferometer so that the path length of the rays in the arm of the cuvette and in the arm of the scanning wedge is the same. The interferogram is scanned by the reciprocating motion of the scanning wedge. The optical constants of the sample under study (n is the refractive index, k is the extinction coefficient) are calculated according to the known formulas. To change the average layer thickness of the sample under study, the cell is moved relative to the optical axis of the interferometer. The wedge-shaped shape of the cuvette makes it possible to change the thickness of the test substance in the radiation beam.

The invention allows the use of a Mach-Zander type scanning interferometer for direct measurement of the complex refractive index of liquid substances.

Claims (1)

Invention Formula A Mach-Zander interferometer for measuring the complex refractive index of liquids, containing two beamsplitters, two reflectors optically connected with them, a scanning unit made in the form of a prism, installed in one of the interferometer arms, and a cell for the liquid under investigation, characterized by in order to increase the informativity of the measurement of the complex refractive index of liquids by measuring the amplitude and phase of the light wave, the cuvette is made in the form of a prism, identical to the prism of the scanning unit, In the other arm of the interferometer, it is symmetrical to the scanner node with the possibility of the displacement unit being identical with the optical axis. h 1 4.2 Editor O. Yurkovetska Compiled by T. Tynnisson Tehred M.MorgentalKorrektor T.Paly X