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Measuring the hydrogen content in materials is important both for
research and for various applications in material and surface
sciences, such as hydrogen embrittlement of steel, controlled
thermonuclear reaction first wall studies, and changed material
properties caused by dissolved hydrogen. Hydrogen is the most
difficult atomic species to analyze by traditional methods, but
nuclear physics methods are particularly suited for this purpose.
President of the Uzbek SSR Academy of Sciences P.K. Khabibullaev
and Professor B.G. Skorodumov discuss in this book the
characteristics of these methods, such as lower detection limits,
selectivity in respect to different isotopes, accuracy, depth
resolution and maximum detection depth. Examples of applications
that are dealt with include the determination of material humidity,
the dating of objects, the study of hydrogen diffusion including
non-stationary processes, and the investigation of changes in
material properties like superconductivity, plasticity and
electrical properties due to contamination by hydrogen.
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