SU100552A1 - Gas interferometer - Google Patents

Description

In the known designs of gas interferometers, only a single or double passage of light rays through the respective chambers (in the forward and reverse directions) is carried out.

The subject of the invention is a gas interferometer, which provides four times the cooling of light rays through a cuvette with the gas under investigation.

Thus, in the proposed device, the sensitivity and accuracy of the interferometer are doubled.

A diagram of a gas interferometer constructed according to the proposed principle is shown in the drawing. The light comes from the light bulb / through the condenser 2 and the translucent cube 3 to the mirror plate 4, dividing each beam into two, one of which passes through the chamber with air S, and the second through chamber G with the test gas. Both clutches are reflected by prism 5 and re-directed to their respective chambers. Further, on the path of the rays, there is a plate-mirror 6 with internal reflection and a mirror 7 with external reflection. The plate-mirror 6 is composed of two equal-angle wedges a and b with small angles, which allows its thickness to be varied to compensate for the difference in the path of the rays at large differences in gas concentrations.

Reflected from mirrors 6 and 7, the rays pass through the entire original path in the opposite direction and pass through the prism 8 into the objective 9, in the focal plane of which an interference pattern arises, obtained due to the slight inclination of the prism 5 or node 6-7 relative to the axis parallel to B- B. The interference pattern is viewed through the ocular. 10. The thickness of the mirror plates 4 and 6, as well as the distance between the prism 5 and the mirror 7, are chosen so that the paths of the rays passing through the air and gas chambers both in air (gas) and in glass were equal to each other.

When white (non-monochromatic) light is used in the interferometer, a white strip will be observed {for air) in the D-D filament in the middle of the focal plane. The displacement of this band, corresponding to one or another concentration of gas in the gas chamber, is measured by rotating the prism 8 around the axis E to E before returning the strip to its original position relative to the thread D-D. The prism 8 is connected to a reading drum, which can be calibrated as a percentage of the gas concentration.

Since the prism 8 can only be rotated at a small angle (no more than 30-40), it serves to accurately (for example, with an accuracy of 1.0%) measure small changes in concentration. To measure large differences in concentration (for example, at 10%), an additional compensating node with a micrometer screw, with which the wedge can be moved relative to each other, and a reading scale are used.

Subject invention

A gas interferometer, characterized in that, in order to improve measurement accuracy by lengthening the path of light rays passing through it, mirrors are mounted at the exit of the latter from the chambers with the reference and test gases, which reflect light rays in the opposite direction and provide, together with a rectangular prism, located on the other side of the chambers, four times the rays pass through the chambers.

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