Numerical simulation of one- and two-dimensional ESEEM experiments |
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Authors: | Madi Z L Van Doorslaer S Schweiger A |
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Institution: | Physical Chemistry, ETH Zurich, Zurich, CH-8093, Switzerland. |
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Abstract: | Numerical simulation has become an indispensable tool for the interpretation of pulse EPR experiments. In this work it is shown how automatic orientation selection, grouping of operator factors, and direct selection and elimination of coherences can be used to improve the efficiency of time-domain simulations of one- and two-dimensional electron spin echo envelope modulation (ESEEM) spectra. The program allows for the computation of magnetic interactions of any symmetry and can be used to simulate spin systems with an arbitrary number of nuclei with any spin quantum number. Experimental restrictions due to finite microwave pulse lengths are addressed and the enhancement of forbidden coherences by microwave pulse matching is illustrated. A comparison of simulated and experimental HYSCORE (hyperfine sublevel correlation) spectra of ordered and disordered systems with varying complexity shows good qualitative agreement. |
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Keywords: | Abbreviations: EPRAbbreviations: ESEEMAbbreviations: simulationsAbbreviations: matched pulses |
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