Abstract

Nuclear resonant forward scattering (NFS) of synchrotron radiation re- presents Mossbauer spectroscopy in the time domain. This new technique com- plements the conventional nuclear resonance absorption, e.g. Mossbauer spectro- scopy in the energy domain, by supplying highly brilliant, polarized, collimated and timed radiation. In NFS the hyperfine interaction of coherently excited nuclei manifests itself as quantum beats, i.e. as modulation of the time-dependent inten- sity of the transmitted radiation, which is delayed with respect to the incoming synchrotron pulse. We have investigated 57Fe-enriched iron porphyrins to test NFS for first biophysical applications. NFS spectra of the diamagnetic porphyrin Fe02(SC6HF4)(TPpivP) and of the paramagnetic porphyrin (Fe(CH3COO)(TPpiVP))- were recorded at various temperatures, with and without reference scatterer, with and without applied field , Dynamic molecular properties, e.g. dynamic structural disorder or spin-lattice relaxation document as variation of the time-delayed count rate. Measured NFS spectra were analysed theoretically by programs which are basically the analogue in the time domain compared to the usual calculations in the energy domain.

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