Physics – Condensed Matter – Materials Science
Scientific paper
2003-02-03
Physics
Condensed Matter
Materials Science
11 pages, including figures
Scientific paper
We present a detailed investigation of the temperature and frequency dependence of the anomalous EPR transitions first observed in Mn12-acetate by Hill et al. [Phys. Rev. Lett. 80, 2453 (1998)]. The most dominant of these transitions manifest themselves as an extra series of EPR absorption peaks for spectra obtained with the DC field applied within the hard magnetic plane of a single crystal sample. Recent studies by Amigo et al. [Phys. Rev. B 65, 172403 (2002)] have attributed these extra peaks to a strain induced transverse quadratic anisotropy which gives rise to distinct Mn12-acetate species, each having a distinct EPR spectrum; on the basis of these measurements, it has been suggested that this transverse anisotropy is responsible for the tunneling in Mn12-acetate. Our temperature and frequency dependent measurements demonstrate unambiguously that these anomalous EPR absorptions vanish as the temperature tends to zero, thereby indicating that they correspond to transitions from an excited state of the molecule. We argue that this low lying excited state corresponds to an S = 9 multiplet having very similar zero-field crystal parameters to the S = 10 state, and lying only about 10-15 k_B above the S = 10 (M_S = +/-9) ground state. These findings also compare favorably with available neutron scattering data.
Dalal Naresh S.
Edwards Rachel S.
Hill Stephen
Maccagnano S.
North J. M.
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