Abstract
Specific features of X-ray compound refractive lens (XCRL) with parabolic profile of concave surfaces for hard Xray focusing and micro-imaging are analyzed theoretically. Large longitudinal size L of the XCRL requires a verification of the thin lens approximation widely used in the literature. We show that the parabolic XCRL can be treated as a thin lens placed in the middle of the XCRL with the focal length Fl ¼ F þ L=6, where F is the XCRL focal distance in the thin lens approximation. The relatively small aperture of XCRL due to the absorption of X-rays leads to finite resolution and phase effects (or artifacts) of the images. This feature reveals itself as a visibility of transparent objects. It is shown that XCRL allows one to visualize the local phase gradient of the radiation wave field produced by the object. This opens quite a new technique of micro-imaging for purely phase objects which is different from the traditional phase contrast micro-imaging techniques. Optical properties of XCRL as a Fourier transformer are considered as well. 2002 Elsevier Science B.V. All rights reserved.
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