Abstract
Reorientations of the CH3 groups and of the cation are studied in the two phases (phase transition at 308 K) of (CH3)3NH+Cl- by quasielastic neutron scattering using a time of flight and a backscattering instrument. In the high temperature phase the experimental results can be described by rotational diffusion of the cation around its threefold axis with D r = 0·49 × 1012 s-1 (τc = 1/D r = 2·05 ¢ 10-12 s) at 333 K. The reorientation of the methyl groups is too slow to produce in this phase a quasielastic broadening detectable by the time of flight experiment. In the low temperature phase the observed spectra can be explained by simultaneous 120° jumps of the cation and of the methyl groups. The correlation times for the two reorientations are about the same: τc ≈ 4 × 10-10 s at 273 K.