Abstract
The three disordered phases THT (tetragonal high temperature), ORT (orthorhombic room temperature) and TLT (tetragonal low temperature) of (CD3NH3)2MnCl4 have been studied by quasi-elastic neutron scattering in order to follow the reorientational dynamics of the cation CD3NH3+. Structural information has been obtained on the geometry of the motions from the incoherent structure factor measured up to Q=2.5 AA-1 for two orientations of the crystal. In particular, it has been confirmed that the cation keeps an orthorhombic configuration in the TLT phase. Furthermore, the more probable reorientational process in all three phases occurs by 90 degrees jumps about the c axis. The corresponding rate constant decreases from about 7.1*1011 jumps s-1 at 399K (THT) to 3*1011 jumps s-1 at room temperature (ORT) and to 1.8*1011 jumps s-1 at 245K (TLT). The other kinds of reorientational motions are slower by a factor of the order of ten. From these data a direct evaluation of the probabilities of the fourth orthorhombic configurations of the cation is possible.
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