XAFS imaging of Tsukuba gabbroic rocks: area analysis of chemical composition and local structure

Gabbroic rocks were collected at Mount Tsukuba in Japan, and their XAFS images were studied using a projection‐type X‐ray fluorescence (XRF) microscope, which is a powerful new tool recently developed for extremely rapid imaging. The instrument employs a grazing‐incidence arrangement in order that primary X‐rays illuminate the whole sample surface, as well as parallel‐beam optics and an extremely close geometry in order to detect XRF by a high‐performance X‐ray CCD system with 1024 × 1024 pixels. The XRF image indicated that black amphibole and white feldspar, both of which are typical mineral textures of the rock, contain iron. The origin has been suggested to be several small yellowish‐brown minerals contained there. The XAFS imaging has been carried out by repeating the exposure of XRF images during the energy scan of the primary X‐rays. It has been found that the structure is qualitatively close to that of olivine, and the main differences found in both areas can be explained as a difference in iron and magnesium concentration, i.e. the mixed ratio of forsterite (Mg 2 SiO 4 ) and fayalite (Fe 2 SiO 4 ). The feasibility of the present XAFS imaging method has been demonstrated for realistic inhomogeneous minerals.