SU731319A1 - Temperature measuring device - Google Patents

Description

temperature. As a result, micro flows arise in which a partial orientation of pheophytin A microcrystals having an elongated (needle-shaped) shape occurs. Being anisotropic in their optical properties, these microcrystals, after their partial orientation in microflows, change the optical properties of the entire solution. In particular, strong linear birefringence appears, depending on the temperature gradient, which causes the polarization plane of the light passing through the solution to rotate. The angle of rotation of the polarization plane is measured by a photovoltaic system. The angle of rotation is measured at the maximum of the absorption band of the pheophytin A solution used (the maximum wavelength is 692 nm), which is provided by the monochromator 4.

The rotation of the polarization plane is fixed by the described device. The greater the heating (cooling) of the object, the stronger the microcurrents in the solution (the greater the mass of crystals carried by the microflow, the faster the microcurrents). This leads to the enhancement of linear birefringence and to an increase in the angle of rotation of the polarization plane of linearly polarized light. Since the cuvette has a constant geometric shape, the same heating (cooling) each time leads to the same temperature gradient in the volume of the pheophytin A solution and the same microcurrents, which allows unambiguously to record small changes in the temperature of the object. The relaxation time of the temperature sensor (the time required to establish the equilibrium temperature in the solution to enable subsequent measurements) is 15-20 seconds.

Correct measurements are possible in the range of temperature changes of the object. This range is determined on the one hand by the fact that a change in the temperature of the object more than by leads to turbulence of microflows (to deviation from laminarity), which leads to ambiguity of the magnitude of linear birefringence and, accordingly, measurement of the angle of rotation of the light polarization plane and that 9- is the maximum sensitivity of this device.

Measurement of small temperature changes can be carried out in the temperature range of 3-37 ° C. This range is determined by the fact that below 3 ° C the solution of pheophytin A loses its transparency, and above 37 ° C the disaggregation of microcrystals of pheophytin A. begins.

The sensitivity of the proposed device. It is determined by the mass, size and shape of the microcrystals in the solution.

The dependence of the angle a. the rotation of the polarization plane on the magnitude of the change in temperature is nonlinear.

Run in device sensitive

the element from the pheophytin A solution allows to increase the sensitivity of the device and thereby expand the scope of its application.

Claims (1)

Invention Formula A device for measuring temperature, comprising a sensing element located between a source of plane-polarized light and a photoelectric measuring unit, characterized in that, in order to increase the sensitivity of the device, in it the sensing element is made of a polycrystalline solution of pheophytin A placed in a transparent cuvette. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 499508, cl. G 01K 11/00, 08.08.73 (prototype).