Nuclear spectroscopy

Nuclear spectroscopy is a superordinate concept of methods that uses properties of a nucleus to probe material properties. By emission or absorption of radiation from the nucleus information of the local structure is obtained, as an interaction of an atom with its closest neighbours. Or a radiation spectrum of the nucleus is detected. Most methods base on hyperfine interactions, which are the interaction of the nucleus with its interaction of its atom's electrons and their interaction with the nearest neighbor atoms as well as external fields. Nuclear spectroscopy is mainly applied to solids and liquids, rarely in gases. Its methods are important tools in condensed matter physics, solid state chemistry., and analysis of chemical composition (analytical chemistry). In nuclear physics these methods are used to study properties of the nucleus itself.

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Diagnostic of fast-ion energy spectra and densities in magnetized plasmas

Electric field gradient wave (EFGW) in iron-based superconductor Ba0.6K0.4Fe2As2 studied by Mossbauer spectroscopy

Evolution of magnetic and crystal structures in the multiferroic FeTe2O5Br

Electric field gradient wave (EFGW) in iron-based superconductor Ba0.6K0.4Fe2As2 studied by Mossbauer spectroscopy

Evolution of magnetic and crystal structures in the multiferroic FeTe2O5Br

Diagnostic of fast-ion energy spectra and densities in magnetized plasmas