PL122654B2 - Arrangement for determination of refractive index in liqids of high absorption - Google Patents

Description

The subject of the invention is a system for determining the refractive index in highly absorptive liquids. Until now, the refractive index in liquids is usually determined by means of refractometers in such a way that the incidence and refraction angles are measured, and then the ratio of the sines of these angles is determined, or a limit angle is sought as a measure of the refractive index. The above methods cannot be used for the determination of the refractive index in highly absorptive liquids, because after the ray passes through such a liquid, a very small signal value is obtained, which does not allow for an unambiguous, accurate determination of the index. In the case of determining the refractive index by finding the limiting angle, due to the high absorption of the liquid, no clear value of the angle corresponding to the total internal reflection is obtained. In the above methods, the result of determining the refractive index is also influenced by extinction, and in the case of a large value, the determination of the refractive index becomes impossible. The known Abbe refractometer uses a system of two prisms made of glass with a high refractive index. The refractometer includes a rotating system, mirror or a system of prisms, by means of which a beam of light is directed onto the test liquid, placed in the gap between the prisms, in order to obtain a complete internal reflection. The value of the limit angle, which is a measure of the refractive index, is read on a scale. The aim of the invention is to develop a system for the determination of the refractive index in highly absorptive liquids. The system for the determination of the refractive index in highly absorbing liquids, according to the invention, contains a source of monochromatic light transmitting , an imaging plate that splits the beam so that a part of the beam is directed to the reference photometer through the photodetector, and the rest of the beam, after reflection from the mirror, is directed to the prism, and then through the second photodetector to the reference photometer. determining the position of the mirror and prism. The source of the monochromatic light is a laser. A device for determining the polarization position is placed between the light source and the imaging plate.2 122654 The system according to the invention allows for the determination of the refractive index in highly absorptive liquids, such as inks, inks, greases, oils, which was impossible with existing devices and systems. The subject of the invention is illustrated in an example of an embodiment in the drawing, which shows a block diagram of the system. The monochromatic light beam from the laser 1 is directed onto the light beam 3 through the analyzer 2, which determines the position of the polarization. The light dividing plate 3 divides the light beam into two, one of which is directed through the photodetector 6 to the reference photometer 7. The second beam, after reflection from the mirror 4, falls on the prism 5 which closes the cuvette with the tested liquid. The beam of light after reflection from the boundary surface of the tested liquid - the prism falls on the second photodetector 6 connected to the reference photometer 7. The angle of incidence of the light beam on the boundary surface of the tested liquid - the prism is determined by means of a goniometer 8. Patent claims 1. System for determining the refractive index in highly absorptive liquids, characterized by the fact that it contains a monochromatic light source (1) transmitting a beam of radiation, a light separating plate (3) that separates the beam so that a part of the beam is directed to the reference photometer (7) through the photodetector (6) and the rest After being reflected by the mirror (4), the beam is directed to the prism (5) and then through the second photodetector (6) to the comparative photometer (7) and has a goniometer (8) to determine the position of the mirror (4) and the prism (5) . 2. System according to claim The method of claim 1, characterized in that the monochromatic light source (1) is a laser. 3. System according to claim A device according to claim 2, characterized in that a device (2) for determining the polarization position is arranged between the light source (1) and the light-illuminating plate (3). 8 and H) TV X | 6 [- i} {T} ^ ¦ \ T} {T \ Printing Studio of the Polish People's Republic. Mintage 120 copies Price PLN 100 PL

Claims (3)

Claims 1. System for the determination of the refractive index in highly absorptive liquids, characterized in that it comprises a monochromatic light source (1) transmitting a beam of radiation, an imaging plate (3) which splits the beam so that a part of the beam is directed through a photo detector (6) is on the comparative photometer (7) and the rest of the beam after reflection by the mirror (4) is directed to the prism (5) and then through the second photodetector (6) to the comparative photometer (7) and has a goniometer (8) used to determine the positions of the mirror (4) and prism (5). 2. System according to claim The method of claim 1, characterized in that the monochromatic light source (1) is a laser. 3. System according to claim A device according to claim 2, characterized in that a device (2) for determining the polarization position is arranged between the light source (1) and the light-illuminating plate (3). 8 and H) TV X | 6 [- i} {T} ^ ¦ \ T} {T \ Printing Studio of the Polish People's Republic. Mintage 120 copies Price PLN 100 PL