CS206646B1 - Method of increasement of thermoluminescent dosimetric sensor sensitivity - Google Patents

Description

The invention relates to an additional adjustment of the sensitivity of a thermoluminescent dosimetric sensor to ionizing radiation, made of corundum (AlgO4) containing bound molybdenum ions, by irradiation with a dose of visible and ultraviolet light, or a dose of ionizing radiation.

The prior art thermoluminescent dosimeters have a sensitivity to ionizing radiation given by the material used, which is some crystalline material or thermoluminescent glass. Sensitivity of these substances can be influenced only during their production, usually by addition of an activating element or by heat treatment. Sensitivity to ionizing radiation cannot be significantly influenced by a dosimetric sensor manufactured once.

This drawback is remedied by the process of the invention, which is based on the action of a corundum dosimetry microscope containing molybdenum ions firmly bound to a crystalline lattice, visible light, ultraviolet or other ionizing radiation so that the dosimeter is filled to saturation and then heated. up to the temperature evacuating useful thermoluminescent energy levels (i.e. about 400-500 ° 0). By this procedure the sensitivity of the dosimetric sensor is increased only in the order of magnitude. By increasing the sensitivity of the dosimetry sensor, it is possible to register small doses of ionizing radiation at very small dosimeter weights. This can be advantageously used in personal dosimetry.

206 646

Examples

1. Corundum plate cut out of AlgO4 single crystal containing 0.001 wt. The% molybdenum ions bound in the crystal lattice were irradiated with 10 mR of the gamma radiation of the Oo radioisotope. By scanning the thermoluminescence curve on a 20 ° 0 / s linear heating evaluator, a luminescence pattern was recorded which showed a maximum of 1 relative to one at a corundum plate size of 7x3, 5x1 mm and a weight of 90 mg. The same plate was then irradiated with a 300 W ultraviolet lamp from a distance of 10 cm for 60 s and illuminated at 400 ° C for 5 min. Thereafter, irradiation with gamma irradiation of 10 mR was repeated. Using the same procedure as for the first time, the maximum thermoluminescence was again found, resulting in 5.6 relative units. The sensitivity increase is therefore 5.6 times.

2. A 7x7x1 mm plate cut from corundum containing 0.008 wt% molybdenum in the crystalline lattice was irradiated by exposure to 1 mR of gamma radionuclide Co.

By capturing the thermoluminescence curve in the same manner as in Example 1, a maximum thermoluminescence was found, resulting in 0.2 rel. units. After irradiation with a 300 W ultraviolet lamp from a distance of 10 cm, 90 s and heating to 450 ° C for 5 min., Irradiation with gamma irradiation of 1 mR was repeated and the thermoluminescence curve was taken. The maximum thermoluminescence was 4.8 rel. units. The sensitivity increase in this case is 24 times.

3. Plate size 7x? Xl mm, weight 190 mg, cut from corundum (AlgOj) single crystal containing 0.008 wt. The% molybdenum in the crystalline lattice was irradiated with beta radio-radiation, ^ Ξ ^ Υ, at a dose of about 10 Gy. units. After irradiation with an ultraviolet lamp 300 W, 5 min., From a distance of 10 om, the plate is heated to 450 ° for 0.5 min. and re-exposure to beta radiation under the same conditions as for the first time, thereafter thermoluminescence was found with a maximum value of 4.6.10 relative units. The sensitivity increase here is 23 times.

Claims (1)

SUBJECT OF THE INVENTION A method of increasing the sensitivity of a thermoluminescent dosimetry sensor made of corundum (AlgO /) containing 0.0005 to 0.1% by weight of molybdenum ions bound in a crystalline lattice, characterized in that the dosimetric sensor is exposed to visible light, ultraviolet or other ionizing radiation at room temperature. whereupon the sensor is heated to a temperature of 400 to 500 ° C reliably emptying the energy levels used for thermoluminescence dosimetry.