Mössbauer Excitation by Synchrotron Radiation

Reference work entry

1 Isomeric Mössbauer Excitation by Synchrotron 1 Radiation

1

Synchrotron radiation has many distinct properties, such as high brilliance, energy tunability and pulse structure. On account of these properties it permits new types of nuclear resonant excitation experiments. A straightforward use of synchrotron radiation is as an alternative excitation source, which is particularly important in the case of parentless Mössbauer nuclides. The use of synchrotron radiation as a Mössbauer source was proposed by Ruby (1974). The first trial to observe nuclear resonant excitation with synchrotron radiation was reported by Cohen et al. (1978). After these pioneering experiments, nuclear Bragg scattering of synchrotron radiation by 57Fe in a single crystal was clearly observed by Gerdau et al. (1985). In 1991, nuclear resonant forward scattering by 57Fe in iron foil was observed (Hastings et al. 1991). This experiment showed that it is meaningful to examine polycrystalline samples by this method,...

Keywords

Synchrotron Radiation Hyperfine Interaction Phonon Density Iron Borate Nuclear Resonant Scattering 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.
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