A new concept based on well-established fundamental principles allows the high-resolution holographic imaging of atoms inside bulk cystals using X-rays.
a collimating optic with a linear capture angle of 0.15 rad, 12.5J..Lm channel size, and output area of 3.1 em was placed into a standard Bragg-Bretano diffractometer. Capillary optics provide even larger signal gains for very small samples. More than an order of magnitude signal increase was achieved for a 0.3 mm Lysosyme crystal by employing an optic with a 0.1 rad capture angle and 5 mm output diameter. This paper will present a review of the broad range of applications of capillary optics to diffraction systems. PS15.01.12 ONTHEX-RAYDIFFRACTIONBYPERFECT AB-SORBING CRYSTALS. Alfonso E. Merlini, 21027 Ispra (Va). Italy Previous measurements of the ( 111) intensities diffracted by a perfect Ge crystal in the Bragg case, at frequencies of the incident radiation close to the K absorption edge, were considerably higher than those calculated by the dynamical theory of Xray diffraction!. The theory was modified so that the KramersKronig dispersion relations be satisfied for each value of the glancing angle of the incident beam. In this way the photoelectric absorption contribution f'r!vn to the real part of the form factor depends on the glancing angle as the imaginary part does . .f'ctvn is equal to the product of the intensity of the intemal wavefield at the absorbing K-electrons by the contribution .f'at predicted by the anomalous dispersion theory of the individual atom (for simplicity the effects of the crystal field on the matrix elements of the absorption transition are neglected). The conesponding DarwinPrins curves are higher than those foreseen by the present fom1 of the dynamical theory of absorbing crystals and the integrated intensities are 20-30% greater. For example the relative calculated integrated intensities of the ( 111) Bragg reflection by a thick Ge crystal for a frequency of the incident beam 7.64 eV higher than the frequency of the absorption edge are about 1.58, 1.44 and 1.12 by taking the absorption contributions to the real part of the form factor equal to O.f'ctyn and.f'at respectively. The dynamical theory in its present form is a good approximation if the absorption contribution to the real pa.I1 of the form factor is much smaller than its basic part. It is proposed that this theory be modified to tal'e into proper account the dispersion relations. An important conclusion is thatf'ctyn"" 0 (the effect of the anomalous dispersion is wiped out) in that part of the interference rezion where the absorption is small. Since the intemal wavefield depends on the absorption contribution to the real part of the form factor, a consistent value of this contribution can be obtained either by a numerical solution of the equation of f'ctyn or by an iteration procedure( applicable for incident frequencies a few eV away from the absorption edge) of the same equation. A compa.Iison with the above mentioned experimental results is satisfactory. The proposed modified theory can be readily extended to the Laue case, to different absorption phenomena and to the diffraction of other types of radiation by perf...
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