Abstract
The ESR lineshape of one electron spin coupled by anisotropic hyperfine interaction to a number of nuclei is calculated when at least two different configurations of the molecule interchange according to a given reaction scheme. The spectrum calculation includes also the anisotropic electron- zeeman and the nuclear quadrupole interaction. The lineshape, which simulates a nonsaturated CW experiment, is calculated numerically by a direct method and includes the nonsecular terms of the electron spin. The density matrix theory, combined with Liouville formalism, is used allowing both for an accurate treatment of spin dynamics as well as detailed description of the reorganization of the system during exchange [1]. The exchange is treated phenomenologically by a sudden-jump, markov model in which the steady-state populations are calculated prior to the lineshape and are used for the lineshape calculation. For a given overall molecular orientation each configuration (site) is characterized by a set of three strength constants and three Euler angles per interaction [2]. This basic system is used to simulate a single crystal case or is appropriately averaged to simulate a powder sample. The above theory is compared with two experiments.
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