Relaxation experiments with synchrotron radiation

Relaxation phenomena show up in standard energy domain Mossbauer spectra via line broadening. The evaluation of such spectra is in most cases done by adopting the stochastic theory mainly developed in the 60s and 70s. Due to the time structure and the polarization of the synchrotron radiation nuclear resonance forward scattering in the time domain gives valuable information on relaxation mechanisms. We report here mainly on Nuclear Forward Scattering (NFS) experiments investigating the paramagnetic relaxation of the Fe3+ ion in (NH)(4)(Al0.95Fe0.05)-Fe-57(SO4)(2) . 12H(2)O and briefly on recent investigations on charge fluctuations in Eu3S4

Relaxation experiments with synchrotron radiation

Relaxation phenomena show up in standard energy domain Mossbauer spectra via line broadening. The evaluation of such spectra is in most cases done by adopting the stochastic theory mainly developed in the 60s and 70s. Due to the time structure and the polarization of the synchrotron radiation nuclear resonance forward scattering in the time domain gives valuable information on relaxation mechanisms. We report here mainly on Nuclear Forward Scattering (NFS) experiments investigating the paramagnetic relaxation of the Fe3+ ion in (NH)(4)(Al0.95Fe0.05)-Fe-57(SO4)(2) . 12H(2)O and briefly on recent investigations on charge fluctuations in Eu3S4