SU280364A1 - CALORIMETER FOR MEASURING ENERGY OF ELECTROMAGNETIC RADIATION - Google Patents

Description

The invention relates to the field of measurement of radiant energy H can be used, for example, to measure the pulse energy content of electromagnetic radiation.

In known calorimeters, energy is determined by absorbing radiation in an absorbing mass and measuring the temperature rise of that mass. The temperature characteristic after the absorption of a radiation pulse is characterized by an increase in temperature to a maximum and a subsequent relatively slow drop in temperature to the initial level. The increase in temperature is due to the spread of heat from the point of absorption throughout the entire mass of the absorbing body, including the temperature sensor.

In known calorimeters, the measured value is determined by the temperature maximum, which is associated with a large measurement error.

In the proposed device for improving the measurement accuracy, the calorimeter is equipped with a heat reservoir made, for example, in the form of a body with a large mass, which is connected to a heat-conducting rod on which a temperature sensor is installed, included in a compensation measuring circuit, , one of which includes a temperature sensor in contact with the heat reservoir.

The drawing shows the design of the proposed calorimeter.

The absorbing body / is a cone shell made of graphite or metal with a good thermal conductivity. The tip of the hollow cone is extended by a heat-conducting body 2 and ends with a metal mass 3 serving as a heat reservoir. In the heat-conducting body there is a temperature sensor 4.

(termnstor). The same kind of additional thermistor 5 is in heat-conducting contact with mass 3. Thermistors 4 and 5 are included in the two adjacent arms of the Wheatstone bridge, the other two arms of which include the same

resistances b and 7. The adjustable resistance 8 compensates for the negligible difference in the resistances of thermistors 4 and 5, due to manufacturing, so that in the absence of a drop of one radiation point 9. and 10

bridges have the same potential.

When a radiation pulse enters the hollow cone /, the resistance of thermistor 4 changes in comparison with the resistance of thermistor 5, and the resulting potential difference between points 9 to 10 is amplified and recorded by device 11.

Calibration of the calorimeter can be performed in a known manner due to irradiation

the pulse duration of which is of the order of magnitude of the duration of the pulse of the measured radiation. It is more profitable to calibrate by heating the nolowan resistance 12 wound on the outer surface of the cone 1 by means of a current pulse of a known value, which can be obtained by discharging the capacitor 13 over the resistance 12.

Subject invention

A calorimeter for measuring the energy of electromagnetic radiation containing an absorbing body and temperature sensors, characterized in that, in order to increase the measurement accuracy, the calorimeter is provided with a heat reservoir made, for example, in the form of a body with a large mass, which A temperature sensor is installed, included in the compensation measuring circuit, made, for example, in the form of a bridge circuit, in one of whose arms a temperature sensor is connected in contact with the heat reservoir.

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