The physics of rotational tunneling: hole-burning spectroscopy of methyl groups: Molecular Solids

Mark M. Somoza; Josef Friedrich

doi:10.1063/1.2389008

Автор(и)

Mark M. Somoza Physik-Department E14 and Lehrstuhl für Physik Weihenstephan Technische Universität München, Freising, 85350 Germany
Josef Friedrich Physik-Department E14 and Lehrstuhl für Physik Weihenstephan Technische Universität München, Freising, 85350 Germany

DOI:

https://doi.org/10.1063/1.2389008

Ключові слова:

rotational tunneling relaxation, nuclear spin polarization, symmetry species conversion, substitution of hydrogen by deuterium in the methyl group.

Анотація

Methyl groups are most outstanding quantum systems due to their inherent symmetry properties which cannot be destroyed by any kind of lattice disorder. We show how optical hole-burning techniques can be employed to measure rotational tunneling relaxation processes. Since the tunneling parameters are extremely sensitive to changes in the host lattice, there is a rich variety of relaxation phenomena that can be observed. Hole-burning techniques have the capability of measuring not only extremely slow processes with high precision but also rather fast processes. We exploit this possibility to show that the relaxation times at 2 K change by 14 orders of magnitude if the permutation symmetry of the methyl group is destroyed by asymmetric deuterium substitution.

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The physics of rotational tunneling: hole-burning spectroscopy of methyl groups

Molecular Solids

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