General theory of polycrystalline ENDOR patterns. g and hyperfine tensors of arbitrary symmetry and relative orientation

A general formulation is presented for the ENDOR spectra of a randomly oriented, polycrystalline (powder) S = 1 2 paramagnet, assuming slow cross-relaxation, g anisotropy domination of the EPR spectrum, arbitrary symmetries and relative orientations of g and hyperfine tensors, and δ-function EPR and...

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Bibliographic Details
Published in:Journal of magnetic resonance (1969) 1984-01, Vol.59 (1), p.110-123
Main Authors: Hoffman, Brian M, Martinsen, Jens, Venters, Ronald A
Format: Article
Language:English
Subjects:
Atomic and molecular physics
Exact sciences and technology
Molecular properties and interactions with photons
Multiple resonances (including double and higher-order resonance processes, such as double nuclear magnetic resonance, electron double resonance and microwave optical double resonance)
Physics
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Summary:A general formulation is presented for the ENDOR spectra of a randomly oriented, polycrystalline (powder) S = 1 2 paramagnet, assuming slow cross-relaxation, g anisotropy domination of the EPR spectrum, arbitrary symmetries and relative orientations of g and hyperfine tensors, and δ-function EPR and ENDOR component lineshapes. Calculations for simple, archetypical types of centers have been presented, as well as selected calculations showing the full generality of the method. In particular, at g values where the ENDOR spectra arise from multiple orientations of the paramagnet (powder-type spectra) it was found that the ENDOR shape functions, N( A) g , show two divergences and no steps when the g and A tensors are coaxial; noncoaxiality can introduce subsidiary maxima and can cause the occurrence of as many as four additional divergences.
ISSN:0022-2364
1090-7807
1557-8968
DOI:10.1016/0022-2364(84)90287-7