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Techniques Using X-Rays

In the Auger process, an outer electron drops down to fill the vacancy as before, but instead of emitting a photon, a third electron is ejected, whose kinetic energy is approximately given by the difference between the energy levels involved  [Pg.34]

In this case, an M electron is emitted as an Auger electron. The Auger process is termed a radiationless transition. The probability that an inner shell vacancy [Pg.34]

Three analytical techniques which differ in how the primary vacancies are created share the use of such X-rays to identify the elements present. In X-ray fluorescence, the solid sample is irradiated by an X-ray beam (called the primary beam), which interacts with the atoms in the solid to create inner shell vacancies, which then de-excite via the emission of secondary or fluorescent X-rays - hence the name of the technique. The second uses a beam of electrons to create the initial vacancies, giving rise to the family of techniques known collectively as electron microscopy. The third and most recently developed instrumentation uses (usually) a proton beam to cause the initial vacancies, and is known as particle- (or proton-) induced X-ray emission (PIXE). [Pg.38]


Carvalho, C A M., Hashizume, H., Stevenson, A.W. and Robinson, I K. (1996) Electron-density maps for the Si( 111) 7x7 surface calculated with the maximum-entropy technique using X-ray and electron-diffraction data, Physica B, 221,469 186. [Pg.36]

The conventional method for determining cation ordering and site populations within a crystal structure is by diffraction techniques using X-ray, electron and neutron sources. For determining site occupancies of transition metal ions, these methods have been supplemented by a variety of spectroscopic techniques involving measurements of Mossbauer, electron paramagnetic resonance (EPR or ESR), X-ray absorption (EXAFS and XANES), X-ray photoelectron (XPS), infrared and optical absorption spectra. [Pg.251]

X-Ray diffraction can determine whether or not the material on the membrane is crystalline. This technique uses X-rays to strike the material of interest. X-rays are scattered, and from the angles and intensities of the scattered beams, the nature of the crystal can be determined. [Pg.303]

These are two X-ray techniques using X-ray scattering which have become increasingly important. AXD is an acronym for anomalous X-ray diffraction, and is a purely diffraction technique, whereas EXAFS, extended X-ray absorption fine stmcture, is basically a spectroscopic technique. Both these techniques have become possible because of the advances made in the generation of high intensity X-ray beams using modern synchrotron, second and third generation, equipment. [Pg.541]

Microarray detection methods In the early days of protein microarray analysis, mostly radioisotope-based labeling was applied, especially for phosphorylated proteins [99]. Later, stable isotope-coded amino acids (SILAC) proved useful in in vivo incorporation to cell cultures [100]. Both methods were very sensitive, requiring only minute sample amounts to reveal protein expression differences [101]. The use of an enhanced chemiluminescence (ECL) technique using X-ray film exposure or a phosphor imager instrument was. [Pg.95]

X-ray spectroscopy is a technique using X-ray excitation to elucidate the structure of a molecule. [Pg.557]

We are indebted to Prof. S. Tanaka of Tottori University for valuable advice, and H. Kimoto, A.Kaneda, K.Sato of Research Institute of Technology, Tottori prefecture for advice and support of this work. We would also like to express gratitude to K. Inaba, and A. Takano of X-ray Research Laboratory, Rigaku Corporation for the advice of the technique using X-ray diffractometer. [Pg.263]

X-ray crystallography (Chapter 17 Lagniappe) A technique using X rays to determine the structure of molecules. [Pg.1071]

X-Ray diffraction can determine whether or not the material on the membrane is crystalline. This technique uses X-rays to strike the material... [Pg.351]

Harkins et al. [30] have described a method based on measurements of the density of the solution as a function of solubilizate added and, for concentrated solutions [31], a technique using X-ray diffraction patterns. [Pg.232]

Frequently employed WAXD techniques use X-rays or synchrotron radiation of wavelengths in the range of 0.1 to 0.2 nm, while the sample-detector distance ranges from 0.05 to 0.2 m. According to Bragg s law (Equation 6.1),... [Pg.337]

The use of experimental X-ray vidicons, original technique of X-raying and computer image processing allowed to improve basic parameters of XTVI and to achieve higher defectoscopic sensitivity and greater thickness of X-rayed materials and products. [Pg.450]

Amphiphiles often have a complex phase behaviour with several liquid crystalline phases These liquid crystalline phases are often characterised by long-range order in one directior together with the formation of a layer structure. The molecules may nevertheless be able tc move laterally within the layer and perpendicular to the surface of the layer. Structura information can be obtained using spectroscopic techniques including X-ray and neutror diffraction and NMR. The quadrupolar splitting in the deuterium NMR spectrum can be... [Pg.411]

Among the modem procedures utilized to estabUsh the chemical stmcture of a molecule, nuclear magnetic resonance (nmr) is the most widely used technique. Mass spectrometry is distinguished by its abiUty to determine molecular formulas on minute amounts, but provides no information on stereochemistry. The third most important technique is x-ray diffraction crystallography, used to estabUsh the relative and absolute configuration of any molecule that forms suitable crystals. Other physical techniques, although useful, provide less information on stmctural problems. [Pg.306]

A variety of instmmental techniques may be used to determine mineral content. Typically the coal sample is prepared by low temperature ashing to remove the organic material. Then one or more of the techniques of x-ray diffraction, infrared spectroscopy, differential thermal analysis, electron microscopy, and petrographic analysis may be employed (7). [Pg.219]

Often, more detailed information is needed on the distribution of a constituent. The technique of X-ray area scanning, or dot mappings can provide a qualirative view of elemental distributions. As the beam is scanned in a raster pattern on the specimen, a cathode ray rube scanned in synchronism is used to display a full white dot whenever the X-ray detector (WDS or EDS) detects an X ray within a certain narrow energy range. The pattern of dots is recorded on film to produce the dot map. Dot maps are subject to the following limitations ... [Pg.187]

This chapter contains articles on six techniques that provide structural information on surfaces, interfeces, and thin films. They use X rays (X-ray diffraction, XRD, and Extended X-ray Absorption Fine-Structure, EXAFS), electrons (Low-Energy Electron Diffraction, LEED, and Reflection High-Energy Electron Diffraction, RHEED), or X rays in and electrons out (Surfece Extended X-ray Absorption Fine Structure, SEXAFS, and X-ray Photoelectron Diffraction, XPD). In their usual form, XRD and EXAFS are bulk methods, since X rays probe many microns deep, whereas the other techniques are surfece sensitive. There are, however, ways to make XRD and EXAFS much more surfece sensitive. For EXAFS this converts the technique into SEXAFS, which can have submonolayer sensitivity. [Pg.193]

There are several schemes for nondestructive evaluation. Changes in electrical resistance can be used to follow corrosion. Radiographic techniques involving X-rays and gamma rays have been applied. Transmitted radiation as well as back scattered radiation have been used. [Pg.19]

In 1882 Baeyer and Oekonomides advanced formula 72 (R = H) for isatin on chemical grounds, but shortly thereafter the dioxo structure 73 (R H) was proposed since the ultraviolet spectrum of isatin resembled that of the N—Me derivative (73, R Me) and not that of the O—Me derivative (72, R = Me). " It was later shown, despite a conflicting report, that the ultraviolet spectrum of isatin is very similar to the spectra of both the O— and N—Me deriva-tives - the early investigators had failed to take into consideration the facile decomposition of the O—Me derivative. Although isolation of the separate tautomers of isatin has been reported, - these claims were disproved. A first attempt to determine the position of the mobile hydrogen atom using X-ray crystallographic techniques was inconclusive, but later X-ray work," dipole moment data, and especially the infrared spectrum demonstrated the correctness of the... [Pg.16]

In 1951Castaing8 published results to show that an electron microscope could be converted into a useful x-ray emission spectrograph for point-to-point exploration on a micron scale. The conversion consisted mainly in adding a second electrostatic lens to obtain a narrower electron beam for the excitation of an x-ray spectrum, and adding an external spectrometer for analysis of the spectrum and measurement of analytical-line intensity. Outstanding features of the technique were the small size of sample (1 g cube, or thereabouts) and the absence of pronounced absorption and enhancement effects, which, of course, is characteristic of electron excitation (7.10). Castaing8 gives remarkable quantitative results for copper alloys the results in parentheses are the quotients... [Pg.261]


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