%A"Haase, A [Rich. Seifert and Co., Analytical X-ray Systems, Ahrensburg (Germany)]" %D1996 %I; Istituto Nazionale di Fisica Nucleare, Frascati (Italy). Lab. Nazionale di Frascati %2 %J[] %K66 PHYSICS, X-RAY DIFFRACTION, THIN FILMS, TEXTURE, MONOCHROMATIC RADIATION, OPTICAL SYSTEMS, OPTICAL EQUIPMENT %PMedium: ED; Size: pp. 379-387 %TAdvances in thin film diffraction instrumentation by X-ray optics %XThe structural characterisation of thin films requires a parallel X-ray beam of high intensity. Parallel beam geometry is commonly used in high resolution and single crystal experiments, but also in the field of X-ray diffraction for polycrystalline material (e.g. in phase, texture and stress analysis). For grazing incidence diffraction (GID), the use of small slits on the primary side and of long soller slits with a flat monochromator on the secondary side is standard. New optical elements have been introduced with polychromatic or monochromatic radiation. By means of different applications the results are compared with those of classical beam optics. X-ray fiber optics utilize total external reflection of X-rays on smooth surfaces. Effects of monochromatization are presented. In many fields of application, fiber optics may replace conventional collimators. The use of primary and secondary channel cut crystals can also produce a high parallel monochromatic X-ray beam. A parabolically bent graded multilayer produces a monochromatic parallel beam of high intensity. Compared with classical Bragg-Brentano (focussing) geometry, excellent results have been obtained, especially for samples with an irregular shape. In combination with a channel cut monochromator there is a substantial gain in intensity leading to an increase of the dynamic intensity range of rocking curves. %0Conference %NLNF-IR-96/049; CONF-9610291-;Other: ON: DE97740684; TRN: IT9700436 %1 %CItaly %Rhttps://doi.org/ Other: ON: DE97740684; TRN: IT9700436 ITA %GEnglish