HU176847B - Measuring head with entering windov made from beryllium,used for measuring x- and soft gamma radiation and method for making this - Google Patents

Abstract

The invention relates to a method of protecting the beryllium window of a measuring head suitable for measuring the energy of low-X and low-energy gamma rays. By applying the method, the loading window of the measuring head is given effective protection, which prevents the interaction between the ambient humidity and other chemically active substances. The layer protecting the entrance window of the measuring head can be applied in the form of a film or a spraying agent (spray). The absorption of the layer used with respect to the X-ray radiation is lower than that of the Be plate.

Description

The present invention provides a solution for protecting a beryllium window of a probe for measuring X-ray and soft gamma rays energy.

Probes are known for detecting characteristic and soft gamma radiation. These are manufactured and marketed by several companies (eg KEVEX, CANBERRA, ORTEC, etc.). These are made with the well-known Si (Li), Ge (Li) and HPGe (HPGe: High Purity Germanium) detectors operating in a vacuum chamber of 10 ^{-6 to} -10 ^-7 torr and near liquid N ₂ . The desired low pressure is maintained by a continuously operated sorption or ion-gutter pump. In order to detect low energy radiation, the vacuum chamber entrance window is made of a Be plate of 7 to 100 μιη thickness.

The manufacture of these probes requires a high level of technical and professional skill and therefore commercial goods are very high. A common feature of these devices is that the beams of their vacuum chamber beam are made of beryllium, which has no protection against chemical influences, even though the electronegativity of Be (1.5) is slightly less than that of hydrogen. As a result, the moisture content of the air and the majority of the constituents of the falling powder or sample to be measured in the crumbs react slowly with the vacuum sealing property. The vacuum chamber heats up and the radiation detector and the pump used become inoperable. The average lifetime of probes with unprotected Be-windows in use is 1 to 1.5 years, which is a very short time for such high-value equipment.

According to the invention, the beryllium bulb of the probe for measuring the energy of X-ray and soft gamma rays is also provided with a protective layer, which is resistant to water vapor and other chemically active substances in the environment and their combined effect. The protective layer may be prefabricated films of suitable thickness C, H ₂ and O ₂ or N ₂ (eg Mylar, Hostaphan, Makrophol, etc.) of suitable thickness, resistant to moisture and chemically active substances and their combined action, with suitable adhesive (C, H ₂ and O ₂ , e.g. (Eg 5 mg polyisobutylene dissolved in 1 ml light petroleum, or 10 mg PVA (polyvinyl acetate) dissolved in 1 ml acetone and sprayed with at least two coats with an aerosol nozzle, but not more than 1 mg / cm ² ). so that the last cleaner is the solvent for the protective agent.

The degree of radiation absorber of such a protective layer is negligible compared to the degree of radiation absorbance of the Be sheet. Thus, significant detection losses do not occur when measuring the X-rays of the lowest-order detectable elements.

Tovabhi has the advantage of a Be-shaped X-ray probe 176847 with a protective layer, that the fragments of the test substance that may fall during the measurement cannot react with beryllium for protection and therefore the measurement does not have to be interrupted because of the rapid removal of the crumb.

Claims (2)

Patent claims 1. A probe for measuring the energy of X-ray and soft gamma radiation with a beryllium entrance window, characterized in that the probe entrance beryllium window is resistant to moisture and other chemically active substances in the environment and their combined action, material is hermetically sealed. Method for producing a probe entrance window as defined in claim 1, characterized in that the pre-fabricated foil (plastic containing Ct, H and O or N), which protects the beryllium window 5 and is chemically active in the environment and resistant to their combined effect. form on the outside of the Be window. 3. A method of producing a probe entrance window as defined in claim 1, characterized in that the Be window protecting material, which is also resistant to chemically active substances in the environment, is spray applied to the outside of the Be window.