RU2024971C1 - Radioisotope source - Google Patents

Abstract

FIELD: nuclear technology. SUBSTANCE: radioisotope source has four plates. Thin film of radionuclide, for example Fe⁵⁵, is applied onto working surface of each plate; thickness of the film is equal to 2-5 microns. Angle between two plates 1 (X-ray radiation outlet angle) may be changed by means of adjusting screws 6. EFFECT: improved efficiency. 2 cl, 2 dwg

Description

 The invention relates to the construction of radioisotope sources and can be used in the analysis of substances using x-ray radiation, flaw detection and in other areas of technology using x-ray radiation.

 Known radioisotope sources made in the form of a substrate on which a thin layer of a radionuclide is applied. The radionuclide substrate is usually attached to the body (1,2).

Closest to the technical nature of the claimed is a radioisotope source of x-ray radiation based on the radionuclide Fe ⁵⁵ , described in (2). The source contains a flat substrate, on which a layer of radionuclide Fe ^{55 is} deposited, enclosed in a housing.

 When working with this type of sources, in order to provide the required angle of radiation exit, a collimator is installed behind the source, which ensures the required beam size or its divergence at the training object. In addition, the source intensity in a given solid angle is limited by the power of the source itself.

To overcome these difficulties, it is proposed to make a source from four substrate plates placed in a single casing, on one of the surfaces of each of which a radionuclide is deposited, for example, Fe ⁵⁵ , Ni ⁶³ and other isotopes emitting characteristic x-ray spectral lines during decay. Two of the four plates are movable, which allows, if necessary, to change the angle of the x-ray radiation source. Since the radionuclide is deposited on all four plates, the radiation intensity increases. When moving plates approach each other, an additional increase in the radiation flux due to the effect of multiple total external reflection of x-rays from the surface of the plates will be observed.

 In addition, the plates can be made of such a thickness that they themselves perform the function of radiation protection of the source.

 Figure 1 and 2 shows the proposed source.

Mn⁵⁵.The radioisotope source consists of two movable 1 and two fixed 2 plates. A thin layer of radionuclide 3, 4 with a thickness of 2.5 μm is deposited on their inner working surface. As the coating material, the Fe ⁵⁵ isotope can be used with the known conversion parameters Fe ⁵⁵ _ →

Mn ⁵⁵ .

The working surfaces form a wedge-shaped cavity 5 open on one side for the radiation of the source to exit. Management angle α / α (= 10-1 ^o) emission output can be for example, via an adjusting screw 6, two weak tension spring 7, and two powerful compression springs 8. All devices mentioned elements are arranged in a common housing 9.

The source provides a direct exit of x-ray radiation from the wedge-shaped cavity to the side of its open part in the horizontal direction from α to α 'and in the vertical from γ to γ'. In the remaining directions 360 ^о - α'- in the horizontal and 360 ^о - γ 'in the vertical - the radiation will be absorbed by the material of the metal substrate-plates, 2, which in this case fulfill the main function of radiation protection of the source.

 The expected coefficient of use of radiation of a source with spherical symmetry in the proposed device is 0.1-0.3% in the horizontal direction, 1% in the vertical direction 0.5% in the solid angle exceeds the achieved level of use of such radiation.

Claims (2)

 1. RADIOISOTOPIC SOURCE of X-ray radiation, made in the form of a plate placed in the housing with a radionuclide deposited on its working surface, characterized in that three more similar plates are additionally installed in the housing so that the working surfaces of all four plates form a wedge-shaped cavity closed on four sides while the two side plates are parallel to each other, and the remaining two are installed between them at an angle to one another and are equipped with a mechanism for adjusting the angle between n E.  2. The source according to claim 1, characterized in that the thickness of the plates is selected from the condition of absorption of radiation by the material of the plates.

Images