On the formation of X-ray microbeams utilizing a short-focus refractive lens and a laboratory radiation source


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Abstract

The possibility of focusing an X-ray beam from a laboratory radiation source using a short-focus refractive composite lens is shown. The lens consists of 161 spherical biconcave epoxy lenses, each with a curvature radius of 50 μm. A Metal Jet (ExcilliumTM) microfocus X-ray tube, with a focal-spot size of 20 μm and containing a liquid helium anode, is used as a radiation source. The size of the focal spot in the image plane is 2.4 μm, which corresponds to the theoretical estimate. The possibility of using the composite refractive lens to form a parallel polychromatic X-ray beam is demonstrated. The results obtained allow discussion of the possibility of applying short-focus refractive X-ray lenses for X-ray microanalysis using laboratory sources; such microanalysis is currently a prerogative of synchrotron radiation sources only.

About the authors

Y. I. Dudchik

A.N. Sevchenko Institute of Applied Physical Problems

Author for correspondence.
Email: Dudchik@bsu.by
Belarus, Minsk, 220045

P. A. Ershov

Research and Education Centre “Functional Nanomaterials”

Email: Dudchik@bsu.by
Russian Federation, Kaliningrad, 238300

M. V. Polikarpov

Research and Education Centre “Functional Nanomaterials”

Email: Dudchik@bsu.by
Russian Federation, Kaliningrad, 238300

A. Y. Goikhman

Research and Education Centre “Functional Nanomaterials”

Email: Dudchik@bsu.by
Russian Federation, Kaliningrad, 238300

I. I. Snigireva

European Synchrotron Radiation Facility

Email: Dudchik@bsu.by
France, Grenoble, F-38043

A. A. Snigirev

Research and Education Centre “Functional Nanomaterials”

Email: Dudchik@bsu.by
Russian Federation, Kaliningrad, 238300

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