SU699956A1 - Receiving device for mass separator - Google Patents

Abstract

MASS-SEPARATOR RECEPTION DEVICE, containing mobile 1len - isotope collector and mechanism. its movement, distinguished by the fact that, in order to increase the efficiency of spectroscopic measurements of short-lived nuclides by simultaneously measuring the radiation of several isotopes of similar mass, including neighboring ones, by individual detectors, increasing the sensitivity and decreasing the background due to from a friend of the studied sources, the tape-collector is wound spirally onto a cylinder, the circumference of which is located in the focal plane of the mass-separator, and the diameter corresponds to the specified distance between the detectors for measuring radiation neighboring isotopes.?

Description

one

The invention relates to the field of measurement technology used in experimental nuclear physics, in particular, in the field of spectroscopic studies of short-lived radionuclides.

The receiver of the mass separator is usually a plate holder mounted in the focal plane of the mass separator, on which a tape of aluminum foil or metallized synthetic film is attached, which serves to collect separated isotopes.

After the isotopes are separated, the tape is removed, the areas with the isotopes of interest are drawn and placed near the radiation detector. The disadvantages of such devices are the high costs of preparation for the measurement and the need to destroy the collector tape, which eliminates the re-deposition of isotopes of interest in the original area.

A mass-separator receiving device is known, consisting of metallized synthetic movable tape - a collector and a mechanism for moving it, in which the separated isotopes are moved to the detectors by rewinding the tape without cutting it into separate sections.

The disadvantages of this device are the relatively low efficiency of spectroscopic studies of radionuclides due to the impossibility of simultaneously measuring the emissions of similar isotopes by separate detectors and the interfering influence of the emissions of neighboring isotopes. The latter requires the installation of a protective collimator between the detector and the radiation source, which leads to a decrease in the measurement sensitivity. The purpose of the invention is to increase the efficiency of nuclear-spectroscopic measurements of short-lived nuclides by simultaneously measuring the radiation of several similar isotopes by individual detectors, increasing the sensitivity and reducing the background by removing the studied sources from each other. The goal is achieved by the fact that the receiving device is made in the form of a tape wound on a cylinder, which is located in the focal plane of the mass of the separator, with the tape winding step selected according to the dispersion of the mass separator, and the diameter of the cylinder corresponds to the specified distance between the detectors for measuring emissions of neighboring isotopes. The drawing is a diagram explaining the principle of operation of the receiving device of the mass separator. The diagram shows the side surface 1 of the cylinder, located in the focal plane of the mass separator, tape 2, is spiral wound to the cylinder, isotopes 3 separated by masses, and 4 radiation detectors. Separated isotopes are applied to side surface 1 along the generator cylinder. At the end of the mass separation, the tape is unwound by installing areas with radioisotopes over the radiation detectors. After measuring, the tape is rewound on the cylinder in reverse order and the collector is ready for a new mass separation cycle.

Claims (1)

- MASS SEPARATOR RECEIVER, containing movable; tape - isotope collector and mechanism. its movement, characterized in that, in order to increase the efficiency of spectroscopic measurements of short-lived nuclides by simultaneously measuring the radiation of several isotopes of similar mass, including neighboring ones, by separate detectors, increasing sensitivity and reducing the background by removing the studied sources from each other , tape - the collector is spiral wound onto a cylinder, the generatrix of which is located in the focal plane of the mass separator, and the diameter corresponds to a given distance between the detectors for and Radiation measurements were neighboring isotopes.