X-Ray Raman Scattering. II. Experiment with Cr Kα Radiation

“…Thus, PCA was able to distinguish them by considering the scattered incident X‐rays from the Rh source. According to Suzuki et al ., when pure samples of low Z are irradiated at fixed angles, the Compton scattering peak does not change its position, whereas the Raman scattering peak presents a very subtle shift in its position according to the element responsible for the scattering, and this is the cause of variation in the distance between these peaks. This shift of the Raman scattering peak is difficult to visualize without a proper mathematical tool.…”

“…A third type of scattering exists: Raman scattering, which was first observed by the Indian researcher C. V. Raman using sunlight . In the 1960s, Japanese researchers discovered a similar effect for X‐ray radiation (denoted as X‐ray Raman scattering), and between 1967 and 1975, various papers were published proving the existence of small variations (Raman scattering) close to the Compton and Rayleigh scattering bands in X‐ray spectra of samples with elements of low Z. Mizuno and Ohmura have published theoretical considerations, whereas Suzuki has experimentally proven this type of scattering by using pure samples of lithium, beryllium, boron and carbon. Kazuyuki and Udagawa have shown the possibility to obtain structural parameters through the oscillation of Raman scattering.…”

Determination of the Al content in aluminum‐modified SiO₂ stationary phases using X‐ray scattering spectroscopy

“…Thus, PCA was able to distinguish them by considering the scattered incident X‐rays from the Rh source. According to Suzuki et al ., when pure samples of low Z are irradiated at fixed angles, the Compton scattering peak does not change its position, whereas the Raman scattering peak presents a very subtle shift in its position according to the element responsible for the scattering, and this is the cause of variation in the distance between these peaks. This shift of the Raman scattering peak is difficult to visualize without a proper mathematical tool.…”

“…A third type of scattering exists: Raman scattering, which was first observed by the Indian researcher C. V. Raman using sunlight . In the 1960s, Japanese researchers discovered a similar effect for X‐ray radiation (denoted as X‐ray Raman scattering), and between 1967 and 1975, various papers were published proving the existence of small variations (Raman scattering) close to the Compton and Rayleigh scattering bands in X‐ray spectra of samples with elements of low Z. Mizuno and Ohmura have published theoretical considerations, whereas Suzuki has experimentally proven this type of scattering by using pure samples of lithium, beryllium, boron and carbon. Kazuyuki and Udagawa have shown the possibility to obtain structural parameters through the oscillation of Raman scattering.…”

Determination of the Al content in aluminum‐modified SiO₂ stationary phases using X‐ray scattering spectroscopy

“…The measurement by IXS of these semicore excitations, which is generally called x-ray Raman scattering [32,47,75] (XRS), provides the same information as extreme ultraviolet absorption spectroscopy on the same shallow core edges but with the advantage of the possibility of tuning the momentum transfer, possibly disclosing nondipolar transitions. Here we conclude that for both XRS and absorption spectroscopies the strong LFEs invalidate the simple picture of independent electron-hole transitions [see Eq.…”

Dynamical screening in SrVO3 : Inelastic x-ray scattering experiments and ab initio calculations

“…These small alterations (Raman scattering) occur around the Compton and Rayleigh spectrum profiles of organic samples. 9 Suzuki et al described this region in 1967 10 and presented sufficient details 11 to explain and to prove Rayleigh and Compton x-ray scatterings for monochromatic lithium, beryllium, boron and carbon Kp eaks. Bueno et al 9 in 2005 observed that Raman scattering from an x-ray tube of a conventional energy dispersive xray spectrometer could also provide important information about organic samples and named this new technique x-ray scattering spectrometry (XRSS).…”

Classification of some species, genera and families of plants by x‐ray spectrometry