SU448372A1 - The method of determining the angle of inclination of the x-ray beam to the goniometer axis - Google Patents

Description

The invention relates to the field of x-ray analysis and concerns a method for determining the angle of inclination of an x-ray beam to a goniometer axis. Knowledge of this angle is necessary, for example, in precision measurements of the lattice parameters of single crystals using a single-crystal spectrometer.

A known method for determining this angle is to calculate it from the measured changes in the angle of inclination of the specimen reflecting plane to the axis of the goniometer at different positions of the narrow slit in front of the radiation counter.

However, using a known method, the angle of inclination is determined indirectly, and it is necessary to have a device for accurately measuring the angle of inclination of the sample.

The purpose of the invention is the direct finding of the position of the beam axis in space, increasing the express definition.

The goal is achieved by using the proposed method to determine the angle of inclination of X-rays using a counter and two opaque opaque teeters, the edges of which lead to the beam axis. Initially, the entire beam is directed to the counter. Then, the first curtain is installed in front of the counter so as to cover the beam by 50% in intensity, and the second similar curtain is placed at some distance in front of the first and moved parallel to it to a position in which the beam intensity decreases by another 1-2%. After the curtains are installed on the beam axis, their position can be determined by conventional methods, for example, using an overhead level.

Determination of the spatial position of the goniometer axis is usually not difficult. Therefore, it is very easy to find the angle of inclination of the beam axis to the axis of the goniometer.

A setup diagram implementing the proposed method for a divergent beam is shown in the drawing.

The divergent beam from collimator 1 is directed to counter 2 and its intensity is determined. In the case of the horizontal position of the beam, the first chute 3 is placed in front of the counter so that its working edge is horizontal and overlaps the lower part of the beam by 50%. The second curtain 4 is placed at a certain distance in front of the first one and moved upwards so that its edge is parallel to the edge of the first curtain and causes

decrease in intensity by another 1-2%. Thus, the edges of the curtains are installed on the beam axis, and the axis deviations from a strictly horizontal position can be measured, for example, using a level set at the edges of the curtains.

In the case of a non-horizontal beam location, the procedure for placing the edges of the curtains on its axis is similar.

The accuracy with which the edges of the curtains can be installed on the beam axis increases with decreasing cross section and divergence. The maximum absolute error Drmax in the installation of curtains can be estimated from the expression

tgAp "aKc & / 2L,

where b is the size of the entrance slit of the collimator, L is the distance from the entrance slit of the collimator to the first curtain. The distance between the curtains is chosen based on the dimensions of the X-ray unit and the instruments for monitoring the position of the edges of the curtains.

When using a parallel beam with a cross section of 0.20X0.05 mm, the error of the method does not exceed 30, and the measurement error of the divergent beam with a divergence of 3.3 (the same cross section) is -45.

Direct determination of the position of the beam axis allows direct and fast determination of the angle it makes with the goniometer axis.

Subject invention

A method for determining the angle of inclination of an x-ray beam to the goniometer axis, which means that the intensity of a uniform cross section beam is measured with a detector having a cross section uniform sensitivity, characterized in that, in order to simplify and increase the speed of measurements, on the beam path Two X-ray-opaque curtains are installed in front of the counter, one of which overlaps the beam by 50% in intensity and the other placed in front of the first along the beam is moved parallel to it to position nor in which beam intensity

decreases by an additional 1-2%, after which the position of the edges of the curtains is determined, for example, by means of a level.