The different contributions which participate to the shift and broaden
ing of an intramolecular mode in the plastic phase of C60 are recalled
. Especially, using a rotational diffusion model, we calculate the exp
ected step of the linewidth of the A(g) and H(g) Raman modes related t
o the slowing down of the reorientational process at the order-disorde
r phase transition. For H(g) modes a value of the order of 2 cm-1 is c
alculated. On the other hand, we have performed a detailed analysis of
the temperature dependence of the Raman spectrum Of C60. We state tha
t the slowing down of the reorientational process cannot explain alone
the changes with temperature of the profile of the H(g) mode. We show
that the room temperature spectrum of the 1426 cm-1 and 1575 cm-1 tan
gential H(g) modes results from the overlap of several components and
the changes with temperature of the profile of the H(g) mode are mainl
y related to an opposite temperature dependence of the intensity of th
ese components and not to a dramatic narrowing of these modes.