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- Extended_X-ray_absorption_fine_structure abstract "X-ray Absorption Spectroscopy (XAS) includes both Extended X-Ray Absorption Fine Structure (EXAFS) and X-ray Absorption Near Edge Structure (XANES). XAS is the measurement of the x-ray absorption coefficient (in the equations below) of a material as a function of energy. X-rays of a narrow energy resolution are shone on the sample and the incident and transmitted x-ray intensity is recorded as the incident x-ray energy is incremented. The number of x-ray photons that are transmitted through a sample (It) is equal to the number of x-ray photons shone on the sample (I0) multiplied by a decreasing exponential that depends on the type of atoms in the sample, the absorption coefficient , and the thickness of the sample . The absorption coefficient is obtained by taking the log ratio of the incident x-ray intensity to the transmitted x-ray intensity. When the incident x-ray energy matches the binding energy of an electron of an atom within the sample, the number of x-rays absorbed by the sample increases dramatically, causing a drop in the transmitted x-ray intensity. This results in an absorption edge. Each element on the periodic table has a set of unique absorption edges corresponding to different binding energies of its electrons. This gives XAS element selectivity. XAS spectra are most often collected at synchrotrons. Because X-rays are highly penetrating, XAS samples can be gases, solids or liquids. And because of the brilliance of synchrotron X-ray sources the concentration of the absorbing element can be as low as a few ppm. EXAFS spectra are displayed as graphs of the absorption coefficient of a given material versus energy, typically in a 500 – 1000 eV range beginning before an absorption edge of an element in the sample. The x-ray absorption coefficient is usually normalized to unit step height. This is done by regressing a line to the region before and after the absorption edge, subtracting the pre-edge line from the entire data set and dividing by the absorption step height, which is determined by the difference between the pre-edge and post-edge lines at the value of E0 (on the absorption edge).The normalized absorption spectra are often called XANES spectra. These spectra can be used to determine the average oxidation state of the element in the sample. The XANES spectra are also sensitive to the coordination environment of the absorbing atom in the sample. Finger printing methods have been used to match the XANES spectra of an unknown sample to those of known "standards". Linear combination fitting of several different standard spectra can give an estimate to the amount of each of the known standard spectra within an unknown sample.X-ray absorption spectra are produced over the range of 200 – 35,000 eV. The dominant physical process is one where the absorbed photon ejects a core photoelectron from the absorbing atom, leaving behind a core hole. The atom with the core hole is now excited. The ejected photoelectron’s energy will be equal to that of the absorbed photon minus the binding energy of the initial core state. The ejected photoelectron interacts with electrons in the surrounding non-excited atoms.If the ejected photoelectron is taken to have a wave-like nature and the surrounding atoms are described as point scatterers, it is possible to imagine the backscattered electron waves interfering with the forward-propagating waves. The resulting interference pattern shows up as a modulation of the measured absorption coefficient, thereby causing the oscillation in the EXAFS spectra. A simplified plane-wave single-scattering theory has been used for interpretation of EXAFS spectra for many years, although modern methods (like FEFF, GNXAS) have shown that curved-wave corrections and multiple-scattering effects can not be neglected. The photelectron scattering amplitude in the low energy range (5-200 eV) of the photoelectron kinetic energy become much larger so that multiple scattering events become dominant in the NEXAFS (or XANES) spectra.The wavelength of the photoelectron is dependent on the energy and phase of the backscattered wave which exists at the central atom. The wavelength changes as a function of the energy of the incoming photon. The phase and amplitude of the backscattered wave are dependent on the type of atom doing the backscattering and the distance of the backscattering atom from the central atom. The dependence of the scattering on atomic species makes it possible to obtain information pertaining to the chemical coordination environment of the original absorbing (centrally excited) atom by analyzing these EXAFS data.".
- Extended_X-ray_absorption_fine_structure wikiPageExternalLink PhysRevLett.27.1204.
- Extended_X-ray_absorption_fine_structure wikiPageExternalLink gnxas.unicam.it.
- Extended_X-ray_absorption_fine_structure wikiPageExternalLink feff.
- Extended_X-ray_absorption_fine_structure wikiPageExternalLink 2525-edelstein.pdf.
- Extended_X-ray_absorption_fine_structure wikiPageExternalLink index.html.
- Extended_X-ray_absorption_fine_structure wikiPageExternalLink ixas.
- Extended_X-ray_absorption_fine_structure wikiPageExternalLink 459339.pdf.
- Extended_X-ray_absorption_fine_structure wikiPageExternalLink XAFS.
- Extended_X-ray_absorption_fine_structure wikiPageID "1206859".
- Extended_X-ray_absorption_fine_structure wikiPageRevisionID "606370851".
- Extended_X-ray_absorption_fine_structure hasPhotoCollection Extended_X-ray_absorption_fine_structure.
- Extended_X-ray_absorption_fine_structure subject Category:Condensed_matter_physics.
- Extended_X-ray_absorption_fine_structure subject Category:Environmental_chemistry.
- Extended_X-ray_absorption_fine_structure subject Category:Materials_science.
- Extended_X-ray_absorption_fine_structure subject Category:Scientific_techniques.
- Extended_X-ray_absorption_fine_structure subject Category:Synchrotron-related_techniques.
- Extended_X-ray_absorption_fine_structure type Ability105616246.
- Extended_X-ray_absorption_fine_structure type Abstraction100002137.
- Extended_X-ray_absorption_fine_structure type Cognition100023271.
- Extended_X-ray_absorption_fine_structure type Know-how105616786.
- Extended_X-ray_absorption_fine_structure type Method105660268.
- Extended_X-ray_absorption_fine_structure type PsychologicalFeature100023100.
- Extended_X-ray_absorption_fine_structure type ScientificTechniques.
- Extended_X-ray_absorption_fine_structure type Synchrotron-relatedTechniques.
- Extended_X-ray_absorption_fine_structure type Technique105665146.
- Extended_X-ray_absorption_fine_structure comment "X-ray Absorption Spectroscopy (XAS) includes both Extended X-Ray Absorption Fine Structure (EXAFS) and X-ray Absorption Near Edge Structure (XANES). XAS is the measurement of the x-ray absorption coefficient (in the equations below) of a material as a function of energy. X-rays of a narrow energy resolution are shone on the sample and the incident and transmitted x-ray intensity is recorded as the incident x-ray energy is incremented.".
- Extended_X-ray_absorption_fine_structure label "EXAFS".
- Extended_X-ray_absorption_fine_structure label "EXAFS".
- Extended_X-ray_absorption_fine_structure label "EXAFS".
- Extended_X-ray_absorption_fine_structure label "EXAFS-Spektroskopie".
- Extended_X-ray_absorption_fine_structure label "Extended X-ray absorption fine structure".
- Extended_X-ray_absorption_fine_structure label "Spettroscopia EXAFS".
- Extended_X-ray_absorption_fine_structure label "広域X線吸収微細構造".
- Extended_X-ray_absorption_fine_structure sameAs EXAFS-Spektroskopie.
- Extended_X-ray_absorption_fine_structure sameAs EXAFS.
- Extended_X-ray_absorption_fine_structure sameAs Spettroscopia_EXAFS.
- Extended_X-ray_absorption_fine_structure sameAs 広域X線吸収微細構造.
- Extended_X-ray_absorption_fine_structure sameAs EXAFS.
- Extended_X-ray_absorption_fine_structure sameAs EXAFS.
- Extended_X-ray_absorption_fine_structure sameAs m.04h8v7.
- Extended_X-ray_absorption_fine_structure sameAs Q908783.
- Extended_X-ray_absorption_fine_structure sameAs Q908783.
- Extended_X-ray_absorption_fine_structure sameAs Extended_X-ray_absorption_fine_structure.
- Extended_X-ray_absorption_fine_structure wasDerivedFrom Extended_X-ray_absorption_fine_structure?oldid=606370851.
- Extended_X-ray_absorption_fine_structure isPrimaryTopicOf Extended_X-ray_absorption_fine_structure.