SU148759A1 - Automated Radiation Spectrometer - Google Patents

Description

Auto-stabilized radiation spectrometers are known that contain a scintillator, a photomultiplier, a single-channel discriminator, a count rate meter, and a photomultiplier power source, automatically controlled by the difference of the reference voltage and voltage of the control signal.

The proposed auto-stabilized radioactive radiation spectrometer differs from the known ones in that it uses a variable potentiometer from which the reference voltage is removed and a single-channel discriminator connected between the amplifier and frequency meter to sequentially measure the various energy components of the radiation under study.

The drawing shows a diagram of the described device.

The described spectrometer is made as follows. The scintillator 1 is placed in the housing 2, conjugated with the light tube 3. The end of the light tube is optically coupled to the photocathode of the photomultiplier 4. Conclusions A and B of the photomultiplier are connected to the input of the wideband amplifier 5. The output of the latter is connected to the single-channel discriminator 6 with fixed thresholds, thanks what the discriminator passes from the amplifier 5 to the meter 7 counting rate (frequency counter) pulses of a certain amplitude range. The output voltage of the frequency meter 7, which is proportional to the pulse repetition frequency at its input, is fed to register on a recorder 8 of any type. To obtain a sequence of control pulses,

No. 148759-2 control light source 9, for example a gas-filled glow-discharge lamp. The light flashes of the control source 9 are fed to the photomultiplier 4, which excites pulses of short duration, the amplitude of which is constant and exceeds the maximum possible amplitude of the pulses arising from radioactive radiation. Thus, the control pulses are not transmitted by the discriminator b, but removed from the point C by a diode rectifier 10, which is connected via a capacitor // with the variable potentiometer motor 12. The potentiometer is connected parallel to the source 13 of a highly stable constant voltage, and its motor m continuous circular mover within the entire range of the resistance of the potentiometer, thereby changed at each time value taken from the reference voltage of the potentiometer.

The circular motion of the slider can be set, for example, by an electric motor 14. This reference voltage is summed with a voltage proportional to the amplitude of the control pulses, and serves to control the voltage supply of the photomultiplier 4. For this purpose, the total voltage applied to the control grid of the lamp 15, the anode of which is connected to the positive pole of the high voltage source 16. Consequently, depending on the control voltage applied to the grid 15 of the lamp, the lamp controls the amount of supply voltage applied to the photomultiplier 4 (between points L and C). As a result, the gain of the photomultiplier changes and, consequently, the amplitude of the pulses from the photomultiplier. In this case, pulses are successively passed through the single-channel discriminator to the count rate meter, which correspond to the different energy components of the radiation under study.

Subject invention

A self-stabilized radioactive radiation spectrometer containing a scintillator, a photomultiplier, a single-channel discriminator, a count rate meter, and a Photomultiplier Power source automatically controlled by a reference voltage difference and a control signal voltage, characterized in that, for the purpose of sequential measurement of various energy components of the radiation being studied, applied a variable potentiometer, from which the reference voltage is removed, and a single-channel discriminator connected between usi rer and frequency counter.