In spite of the simplicity of the Raman spectrum of C-60, controversy
remains concerning the identification of the Raman spectrum associated
with the pure C-60 solid. In particular, the exact frequency of the p
entagonal pinch mode is still an open question. In this paper, the cha
nge of the room-temperature Raman spectrum of an oxygen-free C-60 film
as a function of the laser power is reported. As previously reported,
two distinct Raman spectra are found: a 1469-cm(-1) Raman spectrum un
der a low incident laser power (P-lambda=1 mW) and a 1459-cm(-1) Raman
spectrum under a moderate incident laser power (P-lambda=50 mW). The
temperature dependences of these two Raman spectra in a large temperat
ure range 10-430 K, and under low, moderate, and high incident laser p
ower are analyzed. The most consistent explanation of these dependence
s is a phototransformation of oxygen-free C-60 under the laser irradia
tion featured by a dominant 1459-cm(-1) Raman spectrum at room tempera
ture, the 1469-cm(-1) Raman spectrum being assigned to the pure oxygen
-free C-60. Our point of view is confirmed by the observation, after a
peculiar thermal treatment, of a stable-in-air C-60 form featured by
a 1459-cm(-1) room-temperature Raman spectrum. Obviously, this result
argues against the interpretation of the 1459-cm(-1) spectrum as that
of a pure oxygen-free C-60 solid.