CS210261B1 - Detection unit in the appliance for measuring the radioactive aerosols - Google Patents

Description

BACKGROUND OF THE INVENTION The present invention relates to a detection unit in an apparatus for measuring radioactive aerosols with detector arrangements from two opposite sides of a collar element, with two amplifiers and one discriminator.

Detection units in a radioactive aerosol measuring device with detector arrangements from two opposite sides, each detector designed to measure a single type of alpha or beta radiation, are known and practiced in practice. Similarly, a detection unit is known with a single detector arranged on one side of a collection element that simultaneously measures alpha radiation and beta radiation. A common disadvantage of both known detection units is that alpha radiation, and especially beta radiation, is detected in 2π geometry.

In terms of background observation, it is advantageous to measure in 4π geometry, especially for devices operating on the principle of measuring the number of pseudocoxidative pulses, i.e. the pulses of beta- + alpha decay of RaC-> RaC 'and Th C-> ThC', if they are compensation for the effect of natural radioactive aerosol alpha radiation.

The advantages of 4π geometry are utilized in a detection unit in a radioactive aerosol measuring device according to the invention, in which the output of the first detector that measures alpha and beta radiation is connected to the input of the first amplifier and the output of the second detector that measures alpha and / , or beta, is connected to the input of the second shipper, wherein the outputs of both amplifiers are connected to the input of the discriminator, the output of which is connected to the input of the evaluation element.

By increasing the detection efficiency of the pseudocincincidence method, a greater number of false coincidence pulses are obtained from the aforementioned decays, resulting in a reduction in the background count of pulses from the background, e.g. aerosol, about 30%.

The subject of the inventions is illustrated in the drawings, which represents a detection unit with two amplifiers and one discriminator.

(In the drawing, there is a detection unit consisting of two opposing detectors 1 and 2. The first detector 1 for measuring alpha ab | t radiation is always located on the side of the collector element where the measured rfdioactive aerosol is captured and the second detector 2 for measuring alpha radiation; The first detector 1 is connected to the input of the first amplifier 3 and the second detector 2 is connected to the input of the second amplifier 6, attracting the outputs of the amplifiers 3 and 6 to the input of the discriminator 4. Discriminator output 4, which is used to distinguish pulses according to amplitude and / or shape, it is connected to a common input of the evaluation element 5. The evaluation element S determines, for example, the frequency and time sequence of the pulses, i.e. the pseudo-coincidence pulses.

In the arrangement in FIG. 1, with impedance matching of detectors 1 and 2, this is to exclude the first amplifier 3 and the second amplifier 6 completely when the two detectors 1 and 2 are directly connected to the input of the discriminator 4, and with sufficient signal amplitude from the detectors 1 and 2. without violating the subject matter of the invention.

Aerosol capture is performed, for example, on a membrane ultrafilter by sucking air from the environment under observation. The aerosol radioactivity is measured by a first alpha and beta radiation detector 1 and a second alpha and / or beta radiation detector 2 either simultaneously or after collection. The first alpha and beta radiation detector 1 simultaneously detects alpha and beta radiation and the pulses therefrom are processed by the first amplifier 3, from where the amplified signals pass to the discriminator input 4 to distinguish pulses according to amplitude and / or shape. The second alpha and / or beta radiation detector 2 also detects both alpha and beta radiation simultaneously, and the pulses therefrom are processed by the second amplifier 6, from where the amplified signals also pass to the discriminator input 4 to distinguish pulses according to amplitude and / or shape. The output of the discriminator 4 to distinguish pulses by amplitude and / or shape is connected to the input of the evaluation element 5. The alpha and beta pulses are evaluated in the evaluation element 3, which may be, for example, a pulse rate meter, coincidence circuit allowing pseudo-coincidence pulses circuits.

Claims (1)

SUBJECT OF THE INVENTION Detection unit in a radioactive aerosol measuring device with detectors arranged on two opposite sides of the collection element such that the first detector is always located on the side where the measured radioactive aerosol is collected, while the second detector is located on the opposite side, characterized in that the output of the first detector (1) that measures alpha and beta radiation is connected to the input of the first amplifier (3) and the output of the second detector (2) that measures alpha and / or beta radiation is connected to the input of the second amplifier (6), the outputs of the amplifiers (3 and 6) are connected to the common input of the discriminator (4), the output of which is connected to the input of the evaluation element (5).