SU417751A1 - - Google Patents

Description

one

This invention relates to experimental nuclear physics.

According to the main author. St. No. 336624, a device for generating a spectrometric signal for a scintillation detector is known, consisting of a scintillation detector comprising a scintillator and a photomultiplier (PMT), the anode of which is connected to a spectrometric amplifier, and the latter is a dynod with a current amplifier, the anode of the PM is connected to an electronic key, made, for example, on a transistor, the control input of which is connected to the current amplifier through a low-level discriminator.

The known device has a high speed, can produce spectrometric signals with an amplitude higher than the value determined by the discriminator of the lower level. This minimum amplitude of the generated spectrometric signal is determined by the discriminator threshold and corresponds to a certain minimum energy of gamma quanta, which are recorded by these devices.

However, in scintillation spectrometers used for neutron activation analysis, it is often required to select a specific energy range from the entire energy spectrum of the detected gamma radiation. Signals corresponding to detecting photons with energy not falling within this range are spurious. When processing the pulse spectra, these signals are eliminated. These parasitic signals load the analyzer, making it difficult to process the measurement results. A similar task — to cut a certain energy range (14 keV-180 keV) — appears in a scintillation spectrometer,

which is used in gamma thickness gauges to record the characteristic radiation of the substrate material.

The purpose of the invention is the selection of a specific energy range of all

gamma-ray spectrum without slowing down the performance of the entire driver and the complexity of electrical circuits.

This is achieved by adding an additional driver to the device with a trigger threshold corresponding to the upper level of the energy released by gamma quanta, the output of which is connected to a lower level discriminator for blocking it, and the input through a matching unit, such as a voltage follower, is connected to output current amplifier.

FIG. 1 shows a block diagram of the proposed device; in fig. 2 - arbitrary range of pulses.

As a result of the absorption of the gamma quantum in the scintillator 1, current pulses appear at the anode and dynode. The signal from the dinode of the PMT 2 is amplified by the current amplifier 3 and is fed to the input of the low-level discriminator 4. If the amplitude of the signal at the input of the discriminator exceeds its threshold, then a signal is produced at the output that converts the electronic key 5 to a state with a large internal resistance. At the anode of the PMT, a voltage pulse is generated, which is then amplified by a spectrometric amplifier 6 and fed to an amplitude analysis.

However, if the amplitude of the signal removed from the output of the current amplifier also turns out to be above the response threshold of the additional driver 7, which is connected to the output of the current amplifier through the matching unit 8, which has a large input resistance (about 20 com), the pulse that is fed into the low level discriminator circuit and blocks it. As a result, there will be no control signal at the output of the lower-level discriminator. The spectrometric voltage pulse will not be generated on the anode of the PMT. The lower limit EI of the energy range will be determined by the response threshold of the low-level discriminator, and the upper limit E will be determined by the response threshold of the additional driver.

Subject invention

Device for generating a spectrometric signal for a scintillation detector but author. St. No. 336624, different

By the fact that, in order to detect spectrometric signals corresponding to a certain energy range of recorded gamma quanta, an additional driver with a trigger threshold corresponding to the upper energy level of released gamma quanta, the output of which is connected to the lower-level discriminator for its blocking, is introduced into it, and an input through a matching unit, such as a voltage follower, is connected to the output of the current amplifier.

Spurious signals

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