CS200768B1 - Material for active section of thermoluminescent dosimeter - Google Patents

Description

BACKGROUND OF THE INVENTION The present invention relates to a material for an active portion of a ionizing radiation thermoluminescent dosinet, based on the principle of electron transitions in ionizing radiation and electron return, accompanied by light emission upon subsequent heating.

Detection of ionizing radiation of various kinds is necessary in many sectors of human activity. A wide variety of prinoips are used to detect this radiation. One important method is fermoluminescent dosimetry, in which, in a suitable substance, ee forms an electron with ionizing radiation containing the center (s) from which the electron is released by heating and passes to the site where it was bound before irradiation. In doing so, they emit photons, the amount of which is proportional to the dose of ionizing radiation and whose detection is already easy. The hitherto known thermoluminescent dosimethoxy utilizes crystalline substances as well as glass as active components. The most successful material for the active parts of the dosimeter is lithium fluoride with manganese ions, natural calcium fluoride and phosphate glasses containing manganese ions. These known materials for the active parts of the dosimeter do not have the disadvantage of being difficult to obtain, or difficult to reproduce, low sensitivity, inadequate spectrum, or thermoluminescent temperature.

The mentioned disadvantages have only a very limited mile of material for the active part of the thermoluminescent corundum ionizing radiation dosimeter according to the invention, which is characterized in that the corundum contains molybdenum ions in an amount of 10.

200 768

% ¹ wt.

The corundum containing molybdenum ions shows, after irradiation, a thermolullisisoenoi of blue light at a maximum around 200 ° C with a large quantum yield and a thermolulimisoenoi of orange light with a maximum around 300 ° C and a lower quantum yield.

The thermoluminescent dosimeter with the active part of the material of the invention combines the advantageous properties of the personal dosimeter with a very sensitive blue shining thermoluminescent maximum and the emergency doser, respectively, for long-term detection by a less opaque orange shining term luminescence maximum.

The dosimeter is easy to use in many workplaces where dosimetry is used.

Example 1

The active part of the dosimeter was constituted by the material according to the invention, ie corundum, containing 5.10 -3% by weight. Molybdenum in the form of a 20 x 10 x 2 mm plate. It was housed in a dark plastic case that protected the active part from the disturbing effects of ultraviolet radiation contained in daylight. After calibrating, the dosimeter was used as a personal dosimeter in a microstructured X-ray machine. The measured values coincided with the data detected by an electronic radlaoe level detector equipped with an integrator whose sensor was located in the working space of a person equipped with a personal dosimeter with an active part of the material according to the invention

Example 2

The active part of the dosimeter was made of powdered corundum containing 0.08% by weight. of bound molybdenum. It was modified in a plastic case. Boeimeter was used in the workplace and radioisotopes. By measuring the intensity of the thermoluminescence peak in the region of 200 ° C, the daily dose of radiation was monitored, and by measuring the intensity of the thermoluminescence peak in the region of 300 * 0, the monthly dose of radiation was monitored. The results were consistent with the results obtained with other complex devices.

Claims (1)

The material for the active part termoluminiscenčního dozlmetru ionizujíoího radiation from corundum, wherein the corundum contains ions of molybdenum in the amount of 10 "^ 1O to" ^1%.