Abstract
Impurity–helium condensates formed by krypton nanoclusters containing atoms and molecules of hydrogen isotopes have been studied via an electron spin resonance (ESR) technique. Analysis of the ESR spectra has shown that most of the H and D atoms reside on the surfaces of Kr nanoclusters. Very large average concentrations have been obtained for H atoms (1.2⋅10⋅19cm−3) and D atoms (3.3⋅19cm−3) in these experiments. Line narrowing has been observed for the highest concentration of D atoms stabilized in the Kr–He sample. Exchange tunneling reactions have been studied in Kr–He sample containing H and D atoms.
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