SU414900A1 - Localized dose calorimeter - Google Patents

Description

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This invention relates to ionizing radiation calorimetry. The device can be used in metrology, medicine and radiation chemistry in determining the absorbed doses of ionizing radiation.

Calorimeters of a locally-absorbed dose are known, which contain a working body of some solid substance, a thermal sensor (thermistor, thermocouple, resistance thermometer) embedded in it and a measuring device.

To make absolute measurements of the energy absorbed by the working fluid, it is necessary either in independent experiments to calibrate the thermal sensor and determine the heat capacity of the working fluid, or to calibrate the calorimeter by applying a measured amount of energy to the working fluid and measuring the corresponding signal of the thermal sensor. In the latter case, the working fluid is supplied with an electric heater.

When working with these types of calorimeters, DC or AC bridges with highly sensitive galvanometers or amplifiers in the measuring diagonal are usually used as measuring devices. Such measuring devices are subject to vibration, industrial noise and their own noise. When applying them, it is necessary to take additional measures to combat the ghechka currents and the influence of parasitic capacitances, inductances and resistances. Thermal sensors themselves have non-linear characteristics, which makes them difficult to calibrate. All this makes it impossible to achieve high measurement accuracy even with high sensitivity of thermal sensors and measuring device.

The purpose of the invention is to improve the measurement accuracy.

The proposed calorimeter is distinguished by the fact that its working fluid is formed in the form of a quartz resonator with a cut that ensures the linear dependence of the resonant frequency on temperature.

The device is shown in the drawing.

The calorimeter contains a working body 1, a temperature-controlled shell 2 and a measuring device, which includes a generator 3 and a device 4 for measuring frequency. The quartz resonator, which is simultaneously the working medium, is part of a generator, the frequency of which is measured by a device for measuring frequency.

Under the action of ionizing radiation, the temperature of the quartz resonator rises, which leads to a change in its resonant frequency and, therefore, the frequency of the generator. The quartz resonator together with the generator is absolutely graduated on reference points. The temperature is counted directly from the frequency value or from the frequency difference between the temperature-sensitive and reference oscillators. The absorbed 5 dose is determined by the measured average temperature and the known heat capacity of the working fluid.

Quartz resonators for measuring temperatures are more linear compared to other types of thermal sensors, which greatly simplifies calibration. JQ Resonators are stable in time and provide a resolution of up to 10 T. The measuring device of the proposed calorimeter is practically unaffected by industrial noise and its own noise.

Claims (1)

Invention Formula A calorimeter of a locally absorbed dose containing a working body and a measuring device, characterized in that, in order to improve the measurement accuracy, the working body is made in the form of a quartz resonator with a cut that provides a linear dependence of the resonant frequency on temperature. g