An investigation was made, of dislocation motions in C60 crystals after indentation, by using X-ray topography and etching methods. A rosette pattern was observed around the indentation after etching. The dislocations in the rosette were moved by thermal annealing and the positions in the dislocations were measured, before and after annealing, by using the double etching method. The annealing temperature dependence of dislocation motions was measured at 490 to 610K. The characteristics of dislocation motion showed dislocation locking due to impurity atmosphere. It was concluded that oxygen and oxide of C60 molecules could lock the dislocations. Moreover, a pair of pits in the rosette pattern were observed after annealing. It corresponded to a pair of Shockley's partial dislocations.

Dislocation Motions in C60 Crystals by an Indentation Test. N.Aota, M.Tachibana, K.Kojima: Journal of Physics D, 2008, 41[7], 074002