SU1364913A1 - Method of determining temperature - Google Patents

Abstract

The invention relates to temperature measurements, and m. used in various remote measurement systems and control systems, especially under the conditions of exposure to electromagnetic interference. The purpose of the invention is improving the accuracy of determining t-ry. Sodium activated monocrystalline cesium iodide is used as a photoluminescent sensor. At the moment of thermal contact of the sensor with the object under study, it is illuminated with monochromatic light. Continuously changing the radiation wavelength within the luminescence photoexcitation band, the intensity of the latter is recorded. The object is judged by the position of the maximum of the photoexcitation band, determined by the wavelength of monochromatic light corresponding to the maximum luminescence intensity. I il.

Description

with

ABOUT)

and

with

with

1136491

The invention relates to the field of temperature measurements and can be used in various systems for remote measurement and temperature control, especially under the influence of electromagnetic interference.

The purpose of the invention is to increase the accuracy of determining the temperature when using a fluorescent thermal sensor.

The drawing shows the dependence of the maximum photoexcitation on temperature.

The proposed method for determining the temperature is carried out as follows.

A photoluminescent temperature sensor, made in the form of a single-crystal plate of cesium iodide activated by sodium, is brought into thermal contact with the object under study.

And it is illuminated in the photoexcited-NIN band of blue luminescence with light from a monochromatic source, for example, consisting of a monochromator and a xenon or hydrogen lamp. At the same time, the wavelength of monochromatic light is continuously changed within the photoexcitation band, while the luminescence intensity is recorded simultaneously. The wavelength of monochromatic light corresponding to the maximum luminescence intensity determines the position of the maximum of the photoexcitation band, from which the temperature of the object under study is determined.

L,

///

250

Monocrystalline cesium iodide activated by sodium, used in the proposed method as a temperature sensor, has a relatively narrow blue luminescence photoexcitation band, the spectral position of the maximum of which significantly depends on temperature, which is reflected in the drawing. It can be seen from the graph that as the temperature decreases, the maximum of the photoexcitation band shifts towards short wavelengths. The position of the maximum is not affected by the intensity of the exciting light, which increases the accuracy of the temperature determination by the proposed method.

Claims (1)

Invention Formula The method of determining the temperature, which consists in illuminating the photoluminescent sensor by exciting it with light, measuring the intensity of its luminescence, and then determining the temperature, characterized in that, in order to increase the accuracy, the photoluminescent; sodium, light. monochromatic light, the wavelength of which is continuously changed within the photoexcitation band of the illumination, while measuring the wavelength of monochromatic It corresponds to the maximum intensity of luminescence, and the temperature is determined from it.