Publication | Closed Access
Hydrogen Atoms in Impurity-Helium Solids
36
Citations
12
References
2002
Year
EngineeringMagnetic ResonanceDeuterium ImpuritiesChemistrySpin PhenomenonTunneling MicroscopyElectron Paramagnetic ResonancePhysicsIntrinsic ImpurityAtomic PhysicsEnergy StoragePhysical ChemistryHydrogenQuantum ChemistryHydrogen TransitionNatural SciencesElectron Spin ResonanceCondensed Matter PhysicsApplied PhysicsImpurity-helium Solids
Electron spin resonance (ESR) is employed to study atomic impurities (H and D) stabilized in impurity-helium (Im-He) solids at 1.35-1.5 K. The kinetics of the low temperature tunneling exchange reactions (D+H2-->H+HD, D+HD-->H+D2) are investigated in Im-He samples containing several different mixtures of hydrogen and deuterium impurities. The ESR line structures help determine the local environment of atoms trapped in Im-He solids. High concentrations of atomic hydrogen stored in Im-He solids may ultimately find applications in energy storage, matrix-isolation spectroscopy, and studies of different quantum statistical effects.
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